CN1703803A

CN1703803A - Antenna, dielectric substrate for antenna, radio communication card

Info

Publication number: CN1703803A
Application number: CNA038254670A
Authority: CN
Inventors: 冈户广则
Original assignee: Taiyo Yuden Co Ltd
Current assignee: Taiyo Yuden Co Ltd
Priority date: 2002-11-27
Filing date: 2003-07-14
Publication date: 2005-11-30
Anticipated expiration: 2023-07-14
Also published as: KR20070007209A; JP3975219B2; AU2003252503A1; US20050248487A1; KR20050085181A; EP1876672A1; EP1569299A1; CN1703803B; EP1569299B1; DE60324320D1; ATE412262T1; US7187329B2; WO2004049505A1; JPWO2004049505A1; KR100703820B1; KR100709596B1; EP1569299A4

Abstract

An antenna of this invention has a ground pattern and a planar element having a cut-out portion from an edge portion farthest from a feed position toward the ground pattern side, and the ground pattern and the planar element are juxtaposed with each other. By providing the cut-out portion, the miniaturization can be realized and current paths to obtain radiation in the low frequency range can be secured. In addition, because the planar element and the ground element are juxtaposed with each other, the volume necessary for the implementation is reduced, and it becomes easy to control the antenna characteristic, particularly, the impedance characteristic, thereby the broad bandwidth can be achieved.

Description

Antenna, dielectric substrate for antenna and wireless communication card

Technical field

The present invention relates to double frequency band aerial technology and all channel antenna technology.

Background technology

Open in the clear 57-142003 communique (patent documentation 1) for example spy and to have disclosed following antenna.That is, shown in Figure 45 A and Figure 45 B, disclosed as the radiant element 3001 of flat board perpendicular to ground plate or 3002 upright unipole antennas of establishing greatly with discoid shape.In this unipole antenna, constitute, high frequency electric source 3004 is connected by supply lines 3003 with radiant element 3001, and the top of radiant element 3001 is 1/4 wavelength height.And, shown in Figure 45 C and Figure 45 D, also disclosed as the top periphery is had along the radiant element 3005 of the flat board of the parabolical shape of regulation perpendicular to ground plate or 3002 upright unipole antennas of establishing greatly.And, shown in Figure 45 E, also disclosed the dipole antenna that 2 radiant element 3001 balanced configurations of the unipole antenna shown in Figure 45 A and Figure 45 B are constituted.And, shown in Figure 45 F, also disclosed the dipole antenna that 2 radiant element 3005 balanced configurations of the unipole antenna shown in Figure 45 C and Figure 45 D are constituted.

And open in the clear 55-4109 communique (patent documentation 2) for example spy and to have disclosed following antenna.That is, shown in Figure 45 6, form laminal elliptical antenna 3006, make its major axis be positioned on the position that is parallel to reflecting surface 3007, power by coaxial supply lines 3008 perpendicular to reflecting surface 3007 upright establishing.And, the example when Figure 45 H shows the bipolar system formation.Under the situation of bipolar system, lamellar elliptical antenna 3006a configuration at grade, and their minor axis is located along the same line, in order to connect balanced feeding line 3009, both are provided with a little at interval.

And, " B-77 half Yen shape sub-prime と Line shape Su Group body closes the super Wide band of ゎせ To I Ru territory ァ Application テ Na " former safe Jie Mu Island of well ?, frequently light one, pp77, Electricity feelings Reported communication association Gross closed in the conference (hereinafter referred to as non-patent literature 1) and has disclosed the unipole antenna shown in Figure 45 J in 1996.In Figure 45 J, the element 3010 of semicircle shape perpendicular to floor 3011 upright establishing, is set at power supply 3012 to liftoff plate 3011 nearest points in the circular arc of element 3010.Disclosing in non-patent literature 1, is that the frequency f L of roughly 1/4 wavelength is as lower limit with radius of a circle.And, in non-patent literature 1, shown in Figure 45 K, to the element 3013 that is provided with otch on the element 3010 shown in Figure 45 J is described perpendicular to the floor 3011 upright examples of establishing.In this non-patent literature 1, (Voltage StandingWave Ratio: voltage standing wave ratio) characteristic is almost constant for the VSWR of the unipole antenna of the unipole antenna of Figure 45 J and Figure 45 K.And in non-patent literature 1, shown in Figure 45 L, show and make element 3014 perpendicular to the upright examples of establishing in floor 3011, this element 3014 is the element 3014a with the frequency resonance that is lower than fL is formed tortuous monopolar configuration and to be formed by connecting with the element that is provided with otch shown in Figure 45 K.In addition, element 3014a is configured to be converged in the notch portion.In addition, relevant with non-patent literature 1, at " B-131 Yen plate モノ Port one Le ァ Application テ Na is integrated and improved " Honda Satoshi, her rattan formal plan sensible Seki one, the good husband of refreshing guarantor, 2-131, Electricity feelings Reported Communications Society Spring Meeting (hereinafter referred to as non-patent literature 2) in 1992 and " Wide band territory Yen plate モノ Port one Le ァ Application テ Na To つぃて " Honda Satoshi, her rattan formal plan sensible, the good husband Seki one of refreshing guarantor, the テレ PVC ジョ Application Ji Intraoperative Reported of association accuses Vol.15, No.59, pp.25-30 also has pair description of plectane unipole antenna among the 1991.10.24 (hereinafter referred to as non-patent literature 3).

More than Shuo Ming antenna is to make the plane conductor of different shape perpendicular to upright unipole antenna of establishing of ground plane and the symmetric form dipole antenna that uses 2 plane conductors with same shape.

And in No. 6351246 communique of United States Patent (USP) (patent documentation 3), disclosed special symmetric form dipole antenna shown in Figure 46.That is, be provided with earth element 3103 between the

balancing component

3101 and 3102 as conductor, the terminal 3104 of

balancing component

3101 and 3102 foot is connected with 3107 with coaxial cable 3106 with 3105.Negative step voltage offers balancing component 3101 by coaxial cable 3106 and terminal 3104.On the other hand, positive step voltage offers balancing component 3102 by coaxial cable 3107 and terminal 3105.In this antenna 3100, the distance of earth element 3103 and

balancing component

3101 or 3102 increases towards lateral direction gradually from

terminal

3104 or 3105, yet must input to

balancing component

3101 and 3102 to above-mentioned unlike signal, and, must use

balancing component

3101,3102 and earth element 3103 these 3 elements in order to obtain desired characteristics.

And Figure 47 is illustrated in the spy and opens the automobile telephone glass antenna device that discloses in the flat 8-213820 communique (patent documentation 4).In Figure 47, on windowpane 3202, be formed with the emission pattern 3203 and the rectangular-shaped earthy pattern 3204 of fan shape, supply terminals A is connected with the heart yearn 3205a of coaxial cable 3205, and earth point B is connected with the outer conductors 3205b of coaxial cable 3205.In this patent documentation 4, emission can be two equilateral triangles with the shape of pattern 3203, also can be polygon.And emission also can be the shape of using self similar figures that fan shape, two equilateral triangles, polygon-shaped inside are removed respectively with the shape of pattern 3203.And, the description of using the shape of rectangle to remove the inside of earthy pattern 3204 is also arranged.

And, in U.S. Patent Publication communique 2002-122010A1 (patent documentation 5), disclosed antenna 3300, as shown in figure 48, this antenna 3300 is provided with in earth element 3301 inside: have the dummy section 3303 of tapering, and the driving element 3302 that transmission line 3304 is connected with supply terminals 3305.In addition, in driving element 3302, at the opposite side of supply terminals 3305, the interval maximum of earth element 3301 and driving element 3302, near supply terminals 3305, this is minimum at interval.Couple positioned opposite at the supply terminals 3305 of driving element 3302 has recess, yet recess self is relative with earth element 3301, becomes a kind of means at the interval of regulating driving element 3302 and earth element 3301.In addition, for the shape that recess is not set, also done announcement.

And, open in the 2001-203521 communique (patent documentation 6) the spy and to have disclosed micro-strip paster antenna shown in Figure 49 3400.This micro-strip paster antenna 3400 on dielectric base plate 3401, the triangle pad (power supply conductor) 3403 that uses conducting metal to form ground plane 3404, little band patch 3402 and be connected with this little band patch 3402.In addition, little band patch 3402 is powered from supply terminals 3405 by the triangle pad 3403 as power supply conductor.Micro-strip paster antenna 3400 shown in Figure 49 although do not illustrate, yet according to the operation principle of microstrip antenna, when ground wire during not with dielectric base plate 3401 relative configurations, can't carry out suitable work.And ground plane 3404 is very little owing to area, thereby does not consider the function of performance radiated element.And for microstrip antenna, the electric current that flows into the emission conductor is not direct emission source, and in Figure 49, the electric current that flows into triangle pad 3403 and little band patch 3402 is not direct emission source.And, the frequency acceptance band 200MHz of this micro-strip paster antenna 3400 that consideration discloses in patent documentation 6 is very narrow with respect to centre frequency 1.8GHz, triangle pad 3403 is not brought into play the function of emission conductor, and little band patch 3402 is the emission conductor of single-frequency (1.8GHz).Like this, micro-strip paster antenna 3400 shown in Figure 49 is microstrip antennas, rather than makes the electric current that flows into the emission conductor help the unipole antenna of launching.And, neither realize wide band traveling-wave antenna by the current path that flows into the emission conductor is changed continuously.And, because frequency acceptance band is single, thereby neither double frequency band aerial.

Like this, although there were various antennas in the past, yet that in the past vertical upright established the size of type unipole antenna is bigger.And, because being stood perpendicular to ground plane, establishes the emission conductor, therefore be difficult to the distance of control emission conductor and ground plane, and the result, it is difficult that the control of antenna performance becomes.And, for symmetric form dipole antenna in the past, owing to use 2 identical shaped emission conductors, thereby be difficult to the distance between the control emission conductor, be difficult to the control antenna characteristic.And, as mentioned above,, also can not bring the improvement of VSWR characteristic even otch is set vertical standing on the emission conductor of establishing the type unipole antenna.And, the described antenna of Figure 45 L, although thereby element 3014a resonates with the frequency that is lower than fL and has realized many resonanceization, however the VSWR bad characteristic in this is lower than the frequency band of fL as double frequency band aerial, can not obtain the antenna performance that requires at present.In addition, in patent documentation 1, patent documentation 2, non-patent literature 1, non-patent literature 2 and non-patent literature 3, for the also not hint and the description of shape of processing ground plane.

And the special symmetric form dipole antenna for patent documentation 3 has the problem of installing, and must prepare many elements that is:, also must prepare 2 kinds for the signal of feed element.And earth element 3103 is relative with

balancing component

3101 and 3102, yet the limit of the earth element 3103 relative with

balancing component

3101 and 3102 is straight lines.On the other hand, balancing component 3101 relative with

balancing component

3103 and 3102 limit portion also adopt the shape near straight line.Like this, the variable in distance of earth element 3103 and

balancing component

3101 or 3102 is linear.

And for the automobile telephone glass antenna device that patent documentation 4 is described, earthy pattern and emission are linear change with the distance of pattern.Because the adjusting of distance can only be undertaken by changing fan-shaped angle, thereby can not carry out meticulous adjusting.And, have the description that the inside of earthy pattern is removed, yet, regulate with emission and use the distance of pattern but without any announcement for the profile of processing earthy pattern.And, do not do any announcement for otch is set yet.

And, although the antenna surface that patent documentation 5 is described to miniaturization, yet for inboard the structure of driving element is set at earth element, can not realize sufficient miniaturization.And, when using earth element to surround driving element,, thereby must between earth element and driving element, vacate very large space because the combination of earth element and driving element too strengthens.This has also hindered the miniaturization of antenna.In addition, the shape of earth element does not have the gradually thin shape of end at driving element.

And for patent documentation 6 described microstrip antennas, although triangle pad and little band patch are to help the shape of launching as can be seen, yet the triangle pad is not only brought into play the power supply conductor of emission conductor function.Therefore, this antenna is the single antenna of frequency acceptance band, is not double frequency band aerial.

Patent documentation 1

The spy opens clear 57-142003 number

Patent documentation 2

The spy opens clear 55-4109 number

Patent documentation 3

No. the 6351246th, United States Patent (USP)

Patent documentation 4

Te Kaiping 8-213820 number

Patent documentation 5

U.S. Patent Publication communique 2002-122010A1

Patent documentation 6

The spy opens 2001-203521 number

Non-patent literature 1

" the plain sub-Group body of B-77 half Yen shape sub-prime と Line shape closes the super Wide band of ゎせ To I Ru territory ァ Application テ Na " former safe Jie of well, wooden Island ?, frequently light one, pp77, Electricity feelings Reported communication association Gross closed conference in 1996

Non-patent literature 2

" B-131 Yen plate モノ Port one Le ァ Application テ Na integrate improve " Honda Satoshi, her rattan formal plan Microscopy ， Seki one, refreshing good husband, 2-131, Electricity feelings Reported Communications Society Spring Meeting in 1992 of protecting

Non-patent literature 3

" Wide band territory Yen plate モノ Port one Le ァ Application テ Na To つぃて " Honda Satoshi, her rattan formal plan sensible is refreshingly protected good Fu ， Seki one, and the テレ PVC ジョ Application Ji Intraoperative Reported of association accuses Vol.15, No.59, pp.25-30,1991.10.24

Summary of the invention

In view of above problem, the purpose of this invention is to provide and a kind ofly realize miniaturization and can realize more antenna, this dielectric substrate for antenna of the new shape of broad in band and the wireless communication card that uses this antenna.

And another object of the present invention provides antenna, this dielectric substrate for antenna of the new shape that can realize miniaturization and easy control antenna characteristic and the wireless communication card that uses this antenna.

Another object of the present invention provides and can realize miniaturization and can improve antenna, this dielectric substrate for antenna of the new shape of low frequency characteristic and the wireless communication card that uses this antenna.

And another object of the present invention provides the double frequency band aerial of the new shape that can realize miniaturization and have sufficient antenna performance and the dielectric base plate that this double frequency band aerial is used.

Antenna according to the 1st mode of the present invention has: grounding pattern; And plane component, it is powered and is provided with otch from distance power supply marginal portion farthest, position towards grounding pattern side; Grounding pattern and plane component are set up in parallel.By otch is set, can realizes miniaturization, and can guarantee to be used to realize the current path of the emission in the low-frequency band.Erectting in the conventional art that the emission conductor is set, can not use otch control antenna characteristic, yet can control according to the present invention with respect to ground plane.And, because grounding pattern and plane component be set up in parallel, thereby volume is set reduces, and control antenna characteristic, particularly impedance operator easily, thereby can realize broad in band.

And above-mentioned plane component can be configured to make otch set on this plane component edge part in addition relative with grounding pattern.Because the part of grounding pattern and the part of plane component are separately, thereby realize miniaturization easily.And, if the part of grounding pattern and plane component separately, then also can be placed on other parts on the grounding pattern, thereby can realize miniaturization as a whole.

And above-mentioned grounding pattern can form all edge parts that do not surround plane component, and is provided with opening at least a portion of the edge part of the plane component that comprises otch.

In addition, above-mentioned otch can be a rectangle.But also can be the otch of other shape.And the straight line that above-mentioned otch can form with respect to the power supply position by plane component is symmetrical.

And above-mentioned plane component can have following shape: with the limit relative with grounding pattern is base, vertical or be approximately perpendicular to this base and be provided with side, on top be provided with otch.And the angle at two ends, above-mentioned base can be cut off.

And, at least any one party in above-mentioned plane component and the above-mentioned grounding pattern can have make between grounding pattern and the plane component apart from the continually varying part.Like this, control antenna characteristic, particularly impedance operator can realize broad in band easily.

And, can constitute, making plane component and at least a portion above-mentioned grounding pattern opposed edges is curve.

And above-mentioned plane component can form as one with dielectric base plate.Thereby can further realize miniaturization.

In addition, we can say also that grounding pattern and plane component or dielectric base plate are non-relative status, the parallel or almost parallel of face each other.And, we can say that also grounding pattern and plane component or dielectric base plate not exclusively overlap, the parallel or almost parallel of face each other.

Dielectric substrate for antenna according to the 2nd mode of the present invention has: dielectric layer; And the layer that comprises the conducting plane element that is formed with otch from the nearest marginal portion from the 1st side of this dielectric substrate for antenna to the 2nd side surface direction relative with the 1st side.If use this dielectric base plate, then can realize the good antenna of characteristic of small-sized and wide band particularly low-frequency band.

In addition, above-mentioned otch can be a rectangle.But kerf can be other shape.And the straight line that above-mentioned otch can form with respect to the power supply position by plane component is symmetrical.

And above-mentioned plane component can have following shape: with the limit nearest from the 2nd side is base, vertical or be approximately perpendicular to this base and be provided with side, be provided with above-mentioned otch from nearest top, the 1st side.In addition, the angle at two ends, above-mentioned base can be cut off.

And, plane component from the nearest edge part in the 2nd side can have make and the 2nd side between apart from the continually varying part.And above-mentioned plane component can have at least the connecting portion that is connected with the set electrode in the 2nd side.

Antenna according to the 3rd mode of the present invention has: the plane component that is powered; And grounding pattern, itself and plane component are set up in parallel; By grounding pattern is carried out otch, is provided with making between plane component and the grounding pattern apart from the continuous change section of continually varying.By continuous change section is set like this, can suitably regulates the degree of coupling with plane component, thereby can realize broad in band.

Antenna according to the 4th mode of the present invention comprises: plane component, and it is powered in the power supply position; And grounding pattern, itself and plane component are set up in parallel, and are formed with the gradually thin shape of end at the power supply position of plane component.By the gradually thin shape of end is set on grounding pattern like this, can suitably regulates the degree of coupling with plane component, thereby can realize broad in band.

And at least any one party in edge part that the gradually thin shape of above-mentioned end can constitute by: the edge part that is made of line segment, by convex curves and the edge part that is made of convex curve down constitutes.This is in order to constitute the gradually thin shape of end according to the shape of plane component and the antenna performance of expectation.

And can constitute and make the gradually thin shape of above-mentioned end is symmetrical with respect to the straight line of the power supply position by plane component.And, can be provided at the end of the gradually thin shape of above-mentioned end accommodating to the power recess of part of usefulness of the power supply position of plane component.

And, can make above-mentioned plane component be formed on the dielectric base plate or inside, make grounding pattern be formed on the resin substrate or inside, dielectric base plate is placed on the resin substrate.When plane component being formed on the dielectric base plate or when inner, can making the further miniaturization of antenna size.In addition, when plane component being formed on the dielectric base plate or when inner, strengthen with the coupling of grounding pattern, however by adopting the gradually thin shape of end, the degree of coupling of scalable and grounding pattern, thus can realize broad in band.

And, can constitute and make above-mentioned plane component be provided with otch towards grounding pattern side from distance power supply marginal portion farthest, position.Under the situation that makes the plane component miniaturization, by otch is set, fully guarantee the length of the current path on the plane component, the frequency band of lower frequency side is extended.

And above-mentioned plane component can have following shape: with the limit relative with grounding pattern is base, vertical or be approximately perpendicular to this base and be provided with side, on top be provided with otch.For plane component, in order to ensure low frequency characteristic miniaturization is restricted, if still use the plane component of above-mentioned formation, then can realize miniaturization and broad in band.In addition, this moment can be according to the whole raising of the gradually thin shape of the end impedance operator of grounding pattern.

And, can place the dielectric base plate that be formed with plane component in the upper end of above-mentioned resin substrate, grounding pattern is formed have the left side that extends to dielectric base plate and the zone of at least any one party in the right side.By this zone is set on grounding pattern, the frequency band of lower frequency side is extended.

And, can on the upper right end of above-mentioned resin substrate and at least any one party in the upper left end, place the dielectric base plate that is formed with plane component, grounding pattern is formed have the zone that extends to the opposition side that is placed with the dielectric base plate side.

Antenna according to the 5th mode of the present invention has: dielectric base plate, and itself and plane component form as one; And substrate, it is provided with dielectric base plate and is formed with the grounding pattern that is set up in parallel with this dielectric base plate; On grounding pattern, be formed with the gradually thin shape of end at the power supply position of plane component; On plane component, be provided with otch to juxtaposed described grounding pattern side from distance power supply marginal portion farthest, position.

And dielectric base plate can be arranged on the upper end of substrate, and the left side that extends to dielectric base plate or the zone of at least any one party in the right side can be set on grounding pattern.And 2 dielectric base plates can separate 1/4 wavelength configuration in the upper right end and the upper left end of substrate; Can grounding pattern be provided with and be used to make 2 dielectric base plate separate areas.

Wireless communication card according to the 6th mode of the present invention has: dielectric base plate, and itself and plane component form as one; And substrate, it is provided with dielectric base plate and is formed with the grounding pattern that is set up in parallel with this dielectric base plate; On grounding pattern, be formed with the gradually thin shape of end at the power supply position of plane component; On plane component, from partly being provided with otch to the grounding pattern side that is set up in parallel from power supply position edge farthest.

Antenna according to the 7th mode of the present invention has: grounding pattern; And the plane component that is powered, it is being provided with continuous changing unit with grounding pattern opposed edges portion, any one party in the line segment that this continuous changing unit is connected with the gradient phasic Chang by curve constitutes, and and grounding pattern between distance change continuously; Grounding pattern does not surround all edge parts of plane component, and is set up in parallel with this plane component.

In addition, can be in above-mentioned continuous changing unit, along with make away from the power supply position of plane component and grounding pattern between distance increase gradually.And at least a portion of above-mentioned continuous changing unit is made of circular arc.

And at least a portion of the part beyond the continuous changing unit in the edge part of above-mentioned plane component can be formed on the opposition side of grounding pattern side.

And at least a portion that above-mentioned grounding pattern is formed at the edge part beyond the continuous changing unit of plane component is provided with opening.The profile of grounding pattern is also regulated according to various main causes, yet adopts the relative shape of at least a portion of the edge part that makes the direct and continuous changing unit of grounding pattern plane component in addition at least.

And, also can be on above-mentioned plane component, from being provided with otch towards grounding pattern side from the power supply position of plane component edge portion farthest.Thereby can improve the miniaturization of plane component and the characteristic of low-frequency band.

In addition, at least a portion of the edge part of the plane component that comprises above-mentioned otch is formed on not relative with the grounding pattern position.

And, can be on above-mentioned grounding pattern, be formed with the gradually thin shape of end at the power supply position of plane component.

In addition, above-mentioned plane component can be symmetrical with respect to the straight line of the power supply position by plane component also.And the distance between grounding pattern and the plane component can be symmetrical with respect to the straight line of the power supply position by above-mentioned plane component also.

And above-mentioned plane component can form as one with dielectric base plate, can be in continuous changing unit, along with make away from the power supply position of plane component and grounding pattern between distance increase saturatedly.

Antenna according to the 8th mode of the present invention has: grounding pattern; And the plane component that is powered, it is being provided with continuous changing unit with grounding pattern opposed edges portion, any one party in the line segment that this continuous changing unit is connected with the gradient phasic Chang by curve constitutes, and and described grounding pattern between distance change continuously; Grounding pattern is configured to not surround all edge parts of plane component; Grounding pattern and plane component not exclusively overlap, the parallel or almost parallel configuration of face each other.

Antenna according to the 9th mode of the present invention has: grounding pattern; And plane component, its power supply position be powered, and grounding pattern opposed edges portion is provided with and grounding pattern between distance begin the continuous changing unit that curve-like ground increases gradually from described power supply position; Grounding pattern does not surround all edge parts of plane component, and is set up in parallel with this plane component.

Antenna according to the 10th mode of the present invention has: plane component, and it is powered in the power supply position; And grounding pattern, itself and plane component are set up in parallel; Distance between plane component and the grounding pattern along with away from by the power supply position straight line and increase continuous and saturatedly.

And any one party in the line segment that the side edge part of above-mentioned plane component can be connected with the gradient phasic Chang by curve constitutes, and above-mentioned plane component can be formed on the dielectric substrate for antenna or inner.

When plane component being formed on the dielectric substrate for antenna or when inner, can realizing the further miniaturization of antenna.Yet, when plane component being formed on the dielectric substrate for antenna or when inner,, thereby be necessary to regulate each other distance because the coupling of plane component and grounding pattern strengthens.Therefore,, regulate the distance between plane component and the grounding pattern, can make degree of coupling optimization, realize broadband by shape by the side edge part of above-mentioned formation plane component.

And the limit relative with above-mentioned dielectric substrate for antenna of grounding pattern can be made of line segment.The situation of the distance between plane component and the grounding pattern is mainly regulated in this expression by the shape of plane component.

And above-mentioned grounding pattern can have the gradually thin shape of end at dielectric substrate for antenna, and the gradually thin shape of this end can be made of line segment.

And above-mentioned plane component can be symmetrical with respect to the straight line of the power supply position by this plane component.

And above-mentioned dielectric substrate for antenna can also comprise resonant element, and the end points on the straight line of this resonant element and power supply position by plane component is connected.By this resonant element is set, can realize double frequency band aerial.

And above-mentioned resonant element can be symmetrical with respect to the straight line of the power supply position by plane component.And, also can be asymmetric.

And above-mentioned plane component and resonant element can be formed on same one deck.

And at least a portion of plane component and resonant element can be formed on different layers.The dielectric substrate for antenna miniaturization can be made like this, also antenna miniaturization can be made as a whole.

And when plane component and resonant element being projected on the imaginary plane that is parallel to residing separately layer, resonant element can be configured to by the defined presumptive area of the side that projects to the plane component on the imaginary plane not overlap.And, resonant element can be configured at least not from the area coincidence of following half line with the plane component side, this half line is parallel to the straight line by the power supply position that projects to the plane component on the imaginary plane, and is that starting point is extended to the power supply locality with the end points away from the side edge part of this power supply position of projection plane element.

By such configuration resonances element, bring harmful effect can for the characteristic of plane component, can control respectively the characteristic of plane component and resonant element.

Dielectric substrate for antenna according to the 11st mode of the present invention has: dielectric layer; And the layer that comprises the conducting plane element that any one party in the line segment that side edge part is connected with the gradient phasic Chang by curve constitutes; In the side of dielectric substrate for antenna from the power supply position of plane component nearest face and the distance between the side edge part along with away from increase continuous and saturatedly by the straight line of power supply position.

And, in the 11st mode of the present invention, can also have resonant element, the end points on the straight line of this resonant element and power supply position by above-mentioned plane component is connected.By this resonant element is set, can realize double frequency-band.

And at least a portion of above-mentioned plane component and resonant element can be formed on different layers.Can make the dielectric substrate for antenna miniaturization like this.

Antenna according to the 12nd mode of the present invention has: dielectric base plate, and it forms as one with the plane component that is powered in the power supply position; And grounding pattern, itself and dielectric base plate are set up in parallel, and are formed with the gradually thin shape of end at the power supply position; On plane component, be provided with otch towards grounding pattern side from distance power supply marginal portion farthest, position.

Wireless communication card according to the 13rd mode of the present invention has: dielectric base plate, and it forms as one with the plane component that is powered in the power supply position; And substrate, it is provided with dielectric base plate and is formed with the grounding pattern that is set up in parallel with this dielectric base plate; Dielectric base plate is arranged on the end of substrate; On grounding pattern, be formed with terminal gradually thin shape and be provided with the left side that extends to dielectric base plate or the zone of at least any one party in the right side at the power supply position; On plane component, be provided with otch to the grounding pattern side that is set up in parallel from distance power supply marginal portion farthest, position.

Description of drawings

Figure 1A is the front view of the antenna structure in expression the 1st execution mode of the present invention, and Figure 1B is an end view.

Fig. 2 is used for the figure that the antenna operation principle to the 1st execution mode of the present invention describes.

Fig. 3 is used for the figure that the impedance operator to the antenna of the 1st execution mode of the present invention and the antenna relevant with conventional art compares.

Fig. 4 is the figure of the antenna structure in expression the 2nd execution mode of the present invention.

Fig. 5 is the figure of the antenna structure in expression the 3rd execution mode of the present invention.

Fig. 6 is the figure of the antenna structure in expression the 4th execution mode of the present invention.

Fig. 7 is used for the figure that the antenna operation principle to the 4th execution mode of the present invention describes.

Fig. 8 is used for the figure that the impedance operator to the antenna of the 4th execution mode of the present invention and the antenna relevant with conventional art compares.

Fig. 9 is the figure of the antenna structure in expression the 5th execution mode of the present invention.

Figure 10 is the figure of the impedance operator of the antenna in expression the 5th execution mode of the present invention.

Figure 11 is the figure of the antenna structure in expression the 6th execution mode of the present invention.

Figure 12 is the figure of the impedance operator of the antenna in expression the 6th execution mode of the present invention.

Figure 13 A is the front view of the antenna structure in expression the 7th execution mode of the present invention, and Figure 13 B is an end view.

Figure 14 is used for the figure that the operation principle to the antenna of the 7th execution mode of the present invention describes.

Figure 15 is the figure of the antenna structure in expression the 8th execution mode of the present invention.

Figure 16 is the figure of the antenna structure in expression the 9th execution mode of the present invention.

Figure 17 A is the figure of the structure of the 1st antenna in expression the 10th execution mode of the present invention, and Figure 17 B is the figure of the structure of expression the 2nd antenna.

Figure 18 is the figure of the impedance operator of the 1st antenna in expression the 10th execution mode of the present invention.

Figure 19 is the figure of the impedance operator of the 2nd antenna in expression the 10th execution mode of the present invention.

Figure 20 is the figure of the antenna structure in expression the 11st execution mode of the present invention.

Figure 21 is the figure of the impedance operator of the antenna in expression the 11st execution mode of the present invention.

Figure 22 is the figure of the antenna structure in expression the 12nd execution mode of the present invention.

Figure 23 is the figure of the impedance operator of the antenna in expression the 12nd execution mode of the present invention.

Figure 24 is the figure of the antenna structure in expression the 13rd execution mode of the present invention.

Figure 25 is the figure of the antenna structure in expression the 14th execution mode of the present invention.

Figure 26 is used for representing the of the present invention the 13rd and the figure that changes of the impedance operator of the antenna of the 14th execution mode.

Figure 27 is the figure of the structure example of the spatial diversity antennas in expression the 15th execution mode of the present invention.

Figure 28 is the figure of the antenna pattern in the excellent type wireless communication card of representing in the 16th execution mode of the present invention.

Figure 29 A is the front view of the antenna structure in expression the 17th execution mode of the present invention, and Figure 29 B is an end view.

Figure 30 is the figure of the antenna structure in expression the 18th execution mode of the present invention.

Figure 31 is the figure of the antenna structure in expression the 19th execution mode of the present invention.

Figure 32 is the figure of the antenna structure in expression the 20th execution mode of the present invention.

Figure 33 is the figure of the antenna structure in expression the 21st execution mode of the present invention.

Figure 34 is the figure that is used to illustrate the zone that the 2nd element exerts an influence to the 1st element.

Figure 35 A is the front view of the installation example in expression the 21st execution mode of the present invention, and Figure 35 B is a upward view.

Figure 36 is the figure of the impedance operator of the 2.4GHz frequency band in expression the 21st execution mode of the present invention.

Figure 37 is the figure of the impedance operator of the 5GHz frequency band in expression the 21st execution mode of the present invention.

Figure 38 A to Figure 38 C is the figure that is illustrated in the 21st execution mode of the present invention at the radiation diagram of the electric wave of 2.45GHz, and Figure 38 D to Figure 38 F is the figure of expression at the radiation diagram of the electric wave of 5.4GHz.

Figure 39 is the figure of the gain characteristic in expression the 21st execution mode of the present invention.

Figure 40 A to Figure 40 C is the figure of expression according to the layer structure example of the dielectric substrate for antenna of the 22nd execution mode of the present invention.

Figure 41 is the figure of impedance operator of the 5GHz frequency band of the antenna of expression in the 22nd execution mode of the present invention.

Figure 42 is the figure of impedance operator of the 2.4GHz frequency band of the antenna of expression in the 22nd execution mode of the present invention.

Figure 43 A to Figure 43 C is the figure of expression according to the layer structure example of the dielectric substrate for antenna of the 23rd execution mode of the present invention.

Figure 44 A to Figure 44 C is the figure of expression according to the layer structure example of the dielectric substrate for antenna of the 24th execution mode of the present invention.

Figure 45 A to Figure 45 L is the figure that represents antenna structure in the past.

Figure 46 is the figure that represents antenna structure in the past.

Figure 47 is the figure that represents antenna structure in the past.

Figure 48 is the figure that represents antenna structure in the past.

Figure 49 is the figure that represents antenna structure in the past.

Embodiment

[execution mode 1]

Figure 1A and Figure 1B illustrate the antenna structure according to the 1st execution mode of the present invention.Shown in Figure 1A, the antenna of the 1st execution mode comprises: the grounding pattern 102 and the high frequency electric source 103 that are set up in parallel as the plane component 101 of circular flat conductor, with this plane component 101.Plane component 101 is connected at supply terminals 101a place with high frequency electric source 103.Supply terminals 101a is arranged on the shortest position of the distance of plane component 101 and grounding pattern 102.

And plane component 101 and grounding pattern 102 are left-right symmetric with respect to the straight line 111 by supply terminals 101a.Therefore, the beeline from the point on the circumference of plane component 101 to grounding pattern 102 is a left-right symmetric with respect to straight line 111 also.That is, if identical apart from the distance of straight line 111, then the beeline L11 from the point on the circumference of plane component 101 to grounding pattern 102 is also identical with L12.

In the present embodiment, the limit 102a in the face of plane component 101 of grounding pattern 102 is a straight line.Therefore, the beeline between the limit 102a of arbitrfary point on the downside circular arc of plane component 101 and grounding pattern 102 is along with increasing along circular curve away from supply terminals 101a.

And in the present embodiment, the end view shown in Figure 1B is such, and plane component 101 is configured on the center line 112 of grounding pattern 102.Therefore, in the present embodiment, plane component 101 and grounding pattern 102 are configured in the same plane.Yet, also can be configured in the same plane, for example can adopt the face that makes each other form parallel or almost parallel to dispose.

In addition, in the present embodiment, grounding pattern 102 forms and does not surround plane component 101, and grounding pattern 102 sides and plane component 101 sides are separated up and down.That is, though needs size to a certain degree, can irrespectively form grounding pattern 102 with the size of plane component 101.And, also can be by electric insulation layer is set, other component configuration on grounding pattern 102.Therefore, decide the approximate size of antenna according to the size of plane component 101.And, the upside circular arc of the opposition side of the downside circular arc of plane component 101 be not with grounding pattern 102 direct opposed edges parts, although what also depend on antenna is provided with place etc., yet at least a portion of this part is configured to not be grounded pattern 102 to be covered, and on grounding pattern 102 direction of set peristome.

As the antenna operation principle shown in Figure 1A and Figure 1B, as shown in Figure 2, because each current path 113 that 101 circumference is radial extension from supply terminals 101a towards plane component forms resonance point respectively, so can obtain continuous resonance characteristics, realizes broad in band.In the example of Figure 1A and Figure 1B, because the current path suitable with the diameter of plane component 101 is the longest, thereby be diameter length that the frequency setting of 1/4 wavelength is a lower frequency limit roughly, can obtain continuous resonance characteristics more than the lower frequency limit at this.Therefore, as shown in Figure 2, and grounding pattern 102 between the electromagnetic field couples 117 that caused by the electric current on the plane component 101 of flowing through takes place.Promptly, under the lower situation of frequency, owing to the limit 102a setting of the current path 113 that helps to launch perpendicular to grounding pattern 102 is provided with, thereby in wide region, produce coupling with grounding pattern 102, under the frequency condition with higher, because the current path horizontal tilt, thereby in close limit, produce coupling with grounding pattern 102.About with the coupling of grounding pattern 102, be thought of as the capacitive component C in the impedance equivalent electric circuit of antenna, in high frequency band and low-frequency band, capacitive component C is along with the gradient increase and decrease of current path and change.If the value of capacitive component C changes, then make the impedance operator of antenna be subjected to very big influence.More particularly, the distance dependent between capacitive component C and plane component 101 and the grounding pattern 102.Relative therewith, being provided with under the situation of plectane, can not carry out meticulous control to the distance between ground plane and the plectane perpendicular to the ground plane setting.Shown in Figure 1A and Figure 1B, under the situation that plane component 101 and grounding pattern 102 are set up in parallel, if change the shape of grounding pattern 102, then can change the capacitive component C in the impedance equivalent electric circuit of antenna, thereby can be designed to obtain better antenna performance.

And, to compare with the situation that plectane is set perpendicular to the ground plane setting, present embodiment also has can realize the more effect of broad in band.Fig. 3 represent plane component 101 as the conventional art perpendicular to ground plane erect when being provided with impedance operator and according to the figure of the impedance operator of the antenna of present embodiment.In Fig. 3, the longitudinal axis is represented VSWR, and transverse axis is represented frequency (GHz).VSWR value obviously deterioration in by the antenna of the conventional art of thick line 122 expression more than or equal to the high frequency band of 8GHz.

On the other hand, by the VSWR value of the antenna of the present embodiment of solid line 121 expression, although in a part of frequency band just over 2, yet except this frequency band, all be lower than 2 to high frequency band above 10GHz from about 2.7GHz.Like this, also have following effect: the distance between not only easy control plane element 101 and the grounding pattern 102, and can stably realize broad in band by plane component 101 and grounding pattern 102 " being set up in parallel ".

In addition, plane component 101 also can consider it is the emission conductor of unipole antenna.On the other hand, for the antenna in the present embodiment, help the part of launching because grounding pattern 102 also has, thereby also can be described as dipole antenna.Yet because dipole antenna uses 2 emission conductors with same shape usually, thereby the antenna in the present embodiment also can be called asymmetric dipole antenna.And the antenna in the present embodiment also can be described as traveling-wave antenna.This idea can be applicable to all following execution modes.

[execution mode 2]

Fig. 4 shows the antenna structure of the 2nd execution mode of the present invention.Identical with the 1st execution mode, comprising: grounding pattern 202 that is set up in parallel as the plane component 201 of circular flat conductor, with this plane component 201 and the high frequency electric source 203 that is connected with the supply terminals 201a of plane component 201.Supply terminals 201a is arranged on the shortest position of the distance of plane component 201 and grounding pattern 202.

And plane component 201 and grounding pattern 202 are left-right symmetric with respect to the straight line 211 by supply terminals 201a.And the point from the circumference of plane component 201 is parallel to length (hereinafter referred to as distance) that straight line 211 drops to the line segment of grounding pattern 202 also about straight line 211 left-right symmetric.That is, if identical apart from the distance of straight line 211, then the distance L 21 from the point on the circumference of plane component 201 to grounding pattern 202 is also identical with L22.

In the present embodiment, the limit 202a and the 202b in the face of plane component 201 of grounding pattern 202 tilt, thereby more away from straight line 211, the distance between plane component 201 and the grounding pattern 202 is big more to be increased gradually.That is, on grounding pattern 202, be formed with the gradually thin shape of end at the supply terminals 201a of plane component 201.Therefore, the distance between plane component 201 and the grounding pattern 202 sharply is increased to more than the determined curve of circular arc.In addition, be necessary that the gradient of opposite side 202a and 202b is regulated, to obtain the antenna performance of expectation.

That is, in the 1st execution mode, be described,, can change the capacitive component C in the impedance equivalent electric circuit of antenna by changing the distance between plane component 201 and the grounding pattern 202.As shown in Figure 4, the distance between plane component 201 and the grounding pattern 202 is expanded towards the outside, compares with the 1st execution mode, and the size of capacitive component C reduces.Therefore, the bigger effect of the performance of the inductive component L in the impedance equivalent electric circuit.Like this, by carrying out impedance Control, the antenna performance that can obtain to expect.Antenna shown in Figure 4 has also been realized broad in band.

In the present embodiment, grounding pattern 202 forms and does not surround plane component 201, and grounding pattern 202 sides and plane component 201 sides are separated up and down.And, the upside circular arc of the opposition side of the downside circular arc of plane component 201 be not with grounding pattern 202 direct opposed edges parts, although also depend on antenna place etc. is set, cover yet at least a portion of this part is not grounded pattern 202.

And side structure and Figure 1B of the antenna of present embodiment are roughly the same.That is, in the present embodiment, plane component 201 and grounding pattern 202 are configured in the same plane.But, also can be configured in both in the same plane, for example can adopt the face that makes each other form parallel or almost parallel to dispose.

[execution mode 3]

Fig. 5 shows the antenna structure of the 3rd execution mode of the present invention.The antenna of present embodiment comprises: grounding pattern 302 that is set up in parallel as the plane component 301 of semicircle planar conductor, with this plane component 301 and the high frequency electric source 303 that is connected with the supply terminals 301a of plane component 301.Supply terminals 301a is arranged on the shortest position of the distance of plane component 301 and grounding pattern 302.

And plane component 301 and grounding pattern 302 are left-right symmetric with respect to the straight line 311 by supply terminals 301a.Therefore, the beeline from the point on the circular arc of plane component 301 to grounding pattern 302 is a left-right symmetric with respect to straight line 311 also.That is, if identical apart from the distance of straight line 311, then the beeline from the point on the circular arc of plane component 301 to grounding pattern 302 is also identical.

In the present embodiment, the limit 302a in the face of plane component 301 of grounding pattern 302 is a straight line.Therefore, the beeline between the limit 302a of arbitrfary point on the circular arc of plane component 301 and grounding pattern 302 is along with increasing along circular curve away from supply terminals 301a.

And side structure and Figure 1B of the antenna of present embodiment are roughly the same.That is, in the present embodiment, plane component 301 and grounding pattern 302 are configured in the same plane.But, also can be configured in both in the same plane, for example can adopt the face that makes each other form parallel or almost parallel to dispose.

In the present embodiment, grounding pattern 302 forms and does not surround plane component 301, and grounding pattern 302 sides and plane component 301 sides are separated up and down.And, the straight line portion of the opposition side of the downside circular arc of plane component 301 be not with grounding pattern 302 direct opposed edges parts, although what also depend on antenna is provided with place etc., yet on grounding pattern 302, forms the opening at the antenna outside at least for this part.

The frequency characteristic of the antenna in the present embodiment can be controlled according to the radius of plane component 301 and the distance between plane component 301 and the grounding pattern 302.Lower frequency limit is roughly determined by the radius of plane component 301.In addition, can with the 2nd execution mode similarly with the warpage of grounding pattern 302, make it have tapering.Antenna in the present embodiment has also been realized broad in band.

[execution mode 4]

Fig. 6 shows the antenna structure of the 4th execution mode of the present invention.Antenna according to present embodiment comprises: as semicircle planar conductor and be provided with the plane component 401 of notch 414, the grounding pattern 402 that is set up in parallel with plane component 401 and the high frequency electric source 403 that is connected with the supply terminals 401a of plane component 401.The diameter L41 of plane component 401 for example is 20mm, and the width L42 of notch 414 for example is 10mm, from the top 401b (from supply terminals 401a edge part farthest) of plane component 401 to the recessed for example degree of depth of grounding pattern 402 sides L43 (=5mm).Supply terminals 401a is arranged on the distance of plane component 401 and grounding pattern 402 on the shortest position.

And plane component 401 and grounding pattern 402 are left-right symmetric with respect to the straight line 411 by supply terminals 401a.Notch 414 is a symmetry with respect to straight line 411 also.And the beeline from the point on the circular arc of plane component 401 to grounding pattern 402 is a left-right symmetric with respect to straight line 411 also.That is, if identical apart from the distance of straight line 411, then the beeline from the point on the circular arc of plane component 401 to grounding pattern 402 is also identical.

In the present embodiment, the limit 402a in the face of plane component 401 of grounding pattern 402 is a straight line.Therefore, the beeline between the limit 402a of arbitrfary point on the circular arc of plane component 401 and grounding pattern 402 is along with increasing gradually along circular curve away from supply terminals 401a.That is, the antenna of present embodiment be provided with make between plane component 401 and the grounding pattern 402 apart from the continuous change section of continually varying.By this continuous change section is set, the degree of coupling of 402 of plane component 401 and grounding patterns is regulated.By regulating this degree of coupling, can produce the effect of the frequency band extension that makes high frequency side especially.

And antenna side and Figure 1B of present embodiment are roughly the same, and plane component 401 is configured on the center line of grounding pattern 402.That is, in the present embodiment, plane component 401 and grounding pattern 402 are configured in the same plane.But, also can be configured in both in the same plane, for example can adopt the face that makes each other form parallel or almost parallel to dispose.

And in the present embodiment, plane component 401 is configured to make the edge part beyond the notch 414 that is provided with on this plane component 401 relative with grounding pattern 402.The edge part that is provided with notch 414 conversely speaking, is not relative with grounding pattern 402, and is not grounded pattern 402 encirclements.That is,, realize miniaturization easily because the part of plane component 401 and the part of grounding pattern 402 separate up and down, thereby there is no need to be provided with the zone of useless grounding pattern 402.And, if the part of grounding pattern 402 and the part of plane component 401 are separated, then also can be placed on other parts on the grounding pattern 402, thereby also can realize miniaturization as a whole.

Consider the operation principle of the antenna of present embodiment below.Compare with the 1st execution mode, because basic configuration is changed into semicircle from circle, thereby the length of current path shortens than circular situation.Although also there be the current path longer than radius of a circle, the problem that takes place is that radius of a circle length is that the frequency of 1/4 wavelength is roughly lower frequency limit, because the influence of miniaturization especially makes the characteristic of low-frequency band descend.

Therefore, as present embodiment, when on plane component 401 notch 414 being set, electric current can not flow to top 401b from supply terminals 401a point-blank owing to notch 414, as shown in Figure 7, walks around notch 414.Like this, current path 413 so prolong, can reduce the lower frequency limit of emission owing to adopting the form of walking around notch 414 to constitute.Therefore, can realize broad in band.

Antenna in the present embodiment can be controlled its antenna performance according to the shape of notch 414 and the distance between plane component 401 and the grounding pattern 402.Yet,, be well known that and can not come control antenna characteristic (with reference to non-patent literature 1) by notch for making the emission conductor erect the antenna that is provided with as the conventional art perpendicular to ground plane.As present embodiment,, can come the control antenna characteristic by notch 414 by plane component 401 and grounding pattern 402 are set up in parallel.

Fig. 8 shows the figure that plane component 401 is erect as the conventional art the impedance operator of impedance operator when being provided with and antenna according to present embodiment shown in Figure 6 perpendicular to ground plane.In Fig. 8, the longitudinal axis is represented VSWR, and transverse axis is represented frequency (GHz).VSWR value by the antenna of the present embodiment of solid line 421 expression is lower than 2 at about 2.8GHz to the frequency band of about 5GHz, about 5GHz extremely in the frequency band of about 7GHz just over 2, and from about 7GHz to being roughly about 2 above in the frequency band of about 11GHz.On the other hand, poor by the VSWR value of the antenna of the conventional art of thick line 422 expression at the antenna of the frequency band internal ratio present embodiment that is lower than about 5GHz.And, rapid deterioration in being higher than the frequency band of 11GHz.That is, this antenna that illustrates present embodiment is at low-frequency band and the good remarkable result of high frequency band internal impedance characteristic.

Like this, also have following effect: the distance between not only easy control plane element 401 and the grounding pattern 402, and can stably realize broad in band by plane component 401 and grounding pattern 402 " being set up in parallel ".And, also can realize the miniaturization of plane component 401 by notch 414.

In addition, although do not illustrate, yet can have tapering for the upper edge relative of grounding pattern 402 with plane component 401.Not only can pass through notch 414, also can come the control antenna characteristic by the upper edge shape of grounding pattern 402.

And the shape of notch 414 is not limited to rectangle.For example, can adopt the notch 414 of del.In the case, for example be configured to make 1 summit of supply terminals 401a and del to be positioned on the straight line 411.And notch 414 can be trapezoidal.Under trapezoidal situation, when its base is longer than top margin, prolongs because current path is walked around the length of notch 414, thereby can make the current path in the plane component 401 longer.And, also can make the angle sphering of notch 414.

[execution mode 5]

Fig. 9 shows the antenna structure of the 5th execution mode of the present invention.In the present embodiment, to as semicircle planar conductor and be provided with the plane component 501 of notch 514 and grounding pattern 502 to be formed on dielectric constant be that example on 2 to 5 the printed base plate (is the resin substrate of material with FR-4, Teflon (registered trade mark) etc.) describes.

The antenna of the 5th execution mode comprises: plane component 501, the grounding pattern 502 that is set up in parallel with this plane component 501 and the high frequency electric source that is connected with plane component 501.In addition, in Fig. 9, omitted high frequency electric source.Plane component 501 is provided with: jut 501a, and it is connected with high frequency electric source and constitutes supply terminals; Curve part 501b, its limit 502a with grounding pattern 502 is relative; The notch 514 of rectangle, it is recessed to the direction of grounding pattern 502 from top 501d; And arm 501c, it is used to the current path of guaranteeing that low frequency is used.In addition, side structure and Figure 1B are roughly the same.That is, plane component 501 and grounding pattern 502 not exclusively overlap, and face each other is configured to parallel or almost parallel.

Grounding pattern 502 is provided with the recess 515 of the jut 501a that is used to accommodate plane component 501.Therefore, the limit 502a relative with plane component 501 is not a straight line, but is divided into 2 limits.In addition, the antenna of present embodiment is left-right symmetric with respect to the straight line 511 at the center of the jut 501a by becoming the power supply position.That is, notch 514 also is a left-right symmetric.Distance between the curve 501b of plane component 501 and the limit 502a of grounding pattern 502 is along with increasing gradually away from straight line 511.

In the present embodiment, grounding pattern 502 forms and does not surround plane component 501, and except the part of jut 501a and recess 515, grounding pattern 502 sides and plane component 501 sides are separated up and down.And, the notch 514 of plane component 501 and top 501d be not with grounding pattern 502 direct opposed edges parts, although what also depend on antenna is provided with place etc., yet on grounding pattern 502, form opening for this part at least at the antenna outside.

In addition, the shape of notch 514 is not limited to rectangle.Can adopt shape at the notch described in the 4th execution mode.

Figure 10 shows the impedance operator of the antenna of present embodiment.In Figure 10, the longitudinal axis is represented VSWR, and transverse axis is represented frequency (GHz).VSWR is the broadband of about 2.9GHz to about 9.5GHz smaller or equal to 2.5 frequency band.Although VSWR is temporarily near 2 when about 6GHz, yet be permissible scope.VSWR is that 2.5 frequency is about 2.9GHz, and its low-down reason is because be provided with notch 514.

[execution mode 6]

Figure 11 shows the antenna structure of the 6th execution mode of the present invention.In the present embodiment, to as the rectangle plane conductor and be provided with the plane component 601 of notch 614 and grounding pattern 602 to be formed on dielectric constant be that example on 2 to 5 the printed base plate (is the resin substrate of material with FR-4, Teflon (registered trade mark) etc.) describes.

The antenna of the 6th execution mode comprises: plane component 601, the grounding pattern 602 that is set up in parallel with this plane component 601 and the high frequency electric source that is connected with plane component 601.In addition, in Figure 11, omitted high frequency electric source.Plane component 601 is provided with: jut 601a, and it is connected with high frequency electric source and constitutes supply terminals; Base 601a, its limit 602a with grounding pattern 602 is relative; Side portion 601b, it is connected with this base in the mode perpendicular to this base 601a; The notch 614 of rectangle, it is recessed to the direction of grounding pattern 602 from top 601d; And arm 601c, it is used to the current path of guaranteeing that low frequency is used.

Grounding pattern 602 is provided with the recess 615 of the jut 601a that is used to accommodate plane component 601.Therefore, the limit 602a relative with plane component 601 is not a straight line, but is divided into 2 limits.In addition, the antenna of present embodiment is left-right symmetric with respect to the straight line 611 at the center of the jut 601a by becoming the power supply position.Therefore, notch 614 also is a left-right symmetric.

In the present embodiment, grounding pattern 602 forms and does not surround plane component 601, and grounding pattern 602 sides and plane component 601 sides are separated up and down.That is, grounding pattern 602 forms all edge parts that do not surround plane component 601, and at least a portion of the edge part of the plane component 601 that comprises notch 614 opening is set.

And side structure and Figure 1B are roughly the same.That is, the face of the face of plane component 601 and grounding pattern 602 is configured to parallel or almost parallel.

In addition, the shape of notch 614 is not limited to rectangle.Can adopt shape at the notch described in the 4th execution mode.

Figure 12 shows the impedance operator of the antenna of present embodiment.In Figure 12, the longitudinal axis is represented VSWR, and transverse axis is represented frequency (GHz).Do not show good characteristic on the whole, this is because the base 601a of the limit 602a of grounding pattern 602 and plane component 601 is parallel, does not carry out impedance adjustment.But, by oval 621 parts that enclose, showing the effect of notch 614, the low degree of VSWR curve is bigger.

As present embodiment, can not make the base 601a of the limit 602a of grounding pattern 602 and plane component 601 parallel, and cutting grounding pattern 602 make the interval of grounding pattern 602 and plane component 601 shorten continuously from the outside towards supply terminals 601a.As cutting mode, can be straight line, also can be curve.

[execution mode 7]

Figure 13 A and Figure 13 B show the antenna structure of the 7th execution mode of the present invention.The antenna of the 7th execution mode comprises: dielectric base plate 705, and it comprises conducting plane element 701 and dielectric constant with notch 714 and is about 20 in inside; Grounding pattern 702, (=1.0mm) state is set up in parallel, and is formed with the gradually thin shape of end at the supply terminals 701a of dielectric base plate 705 to separate L71 for itself and dielectric base plate 705; For example as the substrate 704 of printed base plate (being the resin substrate of material for example more particularly) with FR-4, Teflon (registered trade mark) etc.; And high frequency electric source 703, it is connected with the supply terminals 701a of plane component 701.The size of dielectric base plate 705 is about 8mm * 10mm * 1mm.And the base 701b of plane component 701 is perpendicular to the straight line 711 by supply terminals 701a, and limit 701c is parallel to straight line 711.The angle of the base 701b of plane component 701 is cut off, and limit 701f is set, and base 701b is connected with limit 701c by this limit 701f.And the top 701d of plane component 701 is provided with the notch 714 of rectangle.Notch 714 by from top 701d to rectangular recessed formation of grounding pattern 702 sides.Supply terminals 701a is arranged on the mid point of base 701b.

And plane component 701 and grounding pattern 702 are left-right symmetric with respect to the straight line 711 by supply terminals 701a.Therefore, notch 714 also is a left-right symmetric.And the point from the base 701b of plane component 701 is parallel to the length (hereinafter referred to as distance) that straight line 711 drops to the line segment of grounding pattern 702 and also is left-right symmetric with respect to straight line 711.

In the present embodiment, grounding pattern 702 forms and does not surround the dielectric base plate 705 that comprises plane component 701, and grounding pattern 702 sides and dielectric base plate 705 sides are separated up and down.That is, grounding pattern 702 forms all edge parts that do not surround plane component 701, and is provided with opening at least a portion of the edge part that comprises notch 714 of plane component 701.

Figure 13 B is an end view, and substrate 704 is provided with grounding pattern 702 and dielectric base plate 705.Substrate 704 and grounding pattern 702 can form as one.In addition, in the present embodiment, form plane component 701 in the inside of dielectric base plate 705.That is, dielectric base plate 705 forms by the laminated ceramic thin plate, also forms wherein one deck of conducting plane element 701 conducts.Therefore, even in fact see, also cannot see as shown in FIG. 13A from above.If constitute plane components 701 in that dielectric base plate 705 is inner, then compare with the situation that plane component 701 is exposed, because dielectric effect strengthens to some extent, thereby can realize miniaturization, also increase for the reliability of corrosion etc.Yet, can on dielectric base plate 705 surfaces, form plane component 701.And, also can change dielectric constant, can use any one party in individual layer and the multilayer.If individual layer then forms plane component 701 on substrate 704.In addition, in the present embodiment, the face of dielectric base plate 705 is configured to or almost parallel parallel with the face of grounding pattern 702.According to this configuration, the face of the plane component 701 that is comprised in one deck of dielectric base plate 705 also is parallel to or is roughly parallel to the face of grounding pattern 702.

When the form of such use dielectric base plate 705 coverings formed plane component 701, the electromagnetic field state of plane component 701 peripheries changed according to dielectric.Specifically, owing to can obtain to increase the effect and the wavelength decreases effect of the electric field density in the dielectric, thereby can make plane component 701 miniaturizations.And, by these effects, the radiation angle of current path is changed, inductive component L and capacitive component C in the impedance equivalent electric circuit of antenna are changed.That is, impedance operator is produced big influence.According to influence, carry out the optimization of the shape of the shape of plane component 701 and grounding pattern 702, so that in the frequency band of expectation, obtain the impedance operator of expectation to this impedance operator.

In the present embodiment, the upper edge 702a of grounding pattern 702 and 702b are the position of 20mm at the width of grounding pattern 702, descend downwards from the intersection point with straight line 711 according to the length L 72 (=2 to 3mm) of side end.That is, grounding pattern 702 has the gradually thin shape of the end that is made of upper edge 702a and 702b at plane component 701.Because the base 701b of plane component 701 is perpendicular to straight line 711, thereby the continuous and linear increase towards side end of the distance of the base 701b of plane component 701 and grounding pattern 702.That is, the antenna of present embodiment be provided with make plane component 701 and grounding pattern 702 apart from the continuous change section of continually varying.By this continuous change section is set, the degree of coupling of plane component 701 and grounding pattern 702 is regulated.Have by regulating this degree of coupling, especially make the effect of the frequency band extension of high frequency side.

The shape of the plane component 701 of present embodiment further realizes miniaturization, and as shown in figure 14, in order to ensure the current path 713 of the frequency band that is used to obtain to expect (particularly low-frequency band), becomes the shape of the notch 714 with rectangle.Can regulate antenna performance by the shape of this notch 714.

[execution mode 8]

The antenna of the 8th execution mode of the present invention comprises as shown in figure 15: dielectric base plate 805, and it comprises plane component 801 and dielectric constant and is about 20 in inside; Grounding pattern 802, itself and dielectric base plate 805 are set up in parallel, and its upper end 802a and 802b are convex curves; For example as the substrate 804 of printed base plate; And high frequency electric source 803, it is connected with the supply terminals 801a of plane component 801.The size of dielectric base plate 805 is about 8mm * 10mm * 1mm.And the base 801b of plane component 801 is perpendicular to the straight line 811 by supply terminals 801a, and the limit 801c that is connected with this base 801b is parallel to straight line 811.And the top 801d of plane component 801 is provided with notch 814.Notch 814 by from top 801d to rectangular recessed formation of grounding pattern 802 sides.Supply terminals 801a is arranged on the mid point of base 801b.In addition, the difference of the plane component 801 that is comprised in the dielectric base plate 805 of plane component 701 that is comprised in the dielectric base plate 705 of the 7th execution mode and present embodiment is to have or not the base corner cut.

Plane component 801 and grounding pattern 802 are left-right symmetric with respect to the straight line 811 by supply terminals 801a.And the point from the base 801b of plane component 801 is parallel to the length (hereinafter referred to as distance) that straight line 811 drops to the line segment of grounding pattern 802 and also is left-right symmetric with respect to straight line 811.

Because the rising wood 802a and the 802b of grounding pattern 802 are convex curves (for example circular arcs), thereby the distance of plane component 801 and grounding pattern 802 increases gradually towards the side end of grounding pattern 802.Though be not acute angle conversely speaking,, the supply terminals 801a at plane component 801 on grounding pattern 802 is formed with the gradually thin shape of end.

In the present embodiment, grounding pattern 802 forms and does not surround the dielectric base plate 805 that comprises plane component 801, and grounding pattern 802 sides and dielectric base plate 805 sides are separated up and down.That is, grounding pattern 802 forms all sides that do not surround dielectric base plate 805, and is provided with opening at least a portion with the side of the approaching dielectric base plate 805 of the edge part that comprises notch 814 of plane component 801.

And side structure is identical with Figure 13 B.That is, comprising the face of dielectric base plate 805 of plane component 801 and the face of grounding pattern 802 is configured to parallel or almost parallel.

For the upper edge 802a of grounding pattern 802 and the curve of 802b,, can in the frequency band of expectation, obtain the impedance operator of expectation by regulating its curvature.

[execution mode 9]

The antenna of the 9th execution mode of the present invention comprises as shown in figure 16: dielectric base plate 805, and it comprises the plane component 801 identical shaped with the 8th execution mode; Grounding pattern 902, itself and this dielectric base plate 805 is set up in parallel, and its upper edge 902a and 902b are respectively downward saturation curve; For example as the substrate 904 of printed base plate, it is provided with dielectric base plate 805 and grounding pattern 902; And high frequency electric source 903, it is connected with the supply terminals 801a of plane component 801.

Plane component 801 and grounding pattern 902 are left-right symmetric with respect to the straight line 911 by supply terminals 801a.And the point from the base 801b of plane component 801 is parallel to the length (hereinafter referred to as distance) that straight line 911 drops to the line segment of grounding pattern 902 and also is left-right symmetric with respect to straight line 911.

Because the upper edge 902a of grounding pattern 902 and 902b are respectively to be the downward saturation curve of starting point with the intersection point with straight line 911, promptly descend convex curve, thereby the distance of plane component 801 and grounding pattern 902 move closer in the value of being scheduled to.If change an angle, then on grounding pattern 902, be formed with the gradually thin shape of end at dielectric base plate 805.

In the present embodiment, grounding pattern 902 forms and does not surround the dielectric base plate 805 that comprises plane component 801, and grounding pattern 902 sides and dielectric base plate 805 sides are separated up and down.That is, grounding pattern 902 forms all edge parts that do not surround plane component 801, and is provided with opening at least a portion of the edge part that comprises notch of plane component 801.

In addition, side structure and Figure 13 B are roughly the same.That is, comprising the face of dielectric base plate 805 of plane component 801 and the face of grounding pattern 902 is configured to parallel or almost parallel.

For the upper edge 902a of grounding pattern 902 and the curve of 902b,, can in the frequency band of expectation, obtain predetermined impedance operator by regulating its curvature.

[execution mode 10]

As the antenna of the 8th execution mode of the present invention, can form grounding pattern 802 with respect to straight line 811 left and right symmetricallies by supply terminals 801a, but when the installation site of dielectric base plate 805 is the corner of for example substrate 804, can not form grounding pattern 802 by left and right symmetrically sometimes.Here, such optimization example when can not left and right symmetrically forming grounding pattern is shown.Shown in Figure 17 A, under the situation of the left comer that must be configured in dielectric base plate 805 substrate 1004, the limit 1002a that grounding pattern 1002 has the left-hand component of the center line 1011 that makes dielectric base plate 805 is level, the limit 1002b of right-hand component tilted and make and descended from limit 1002a that (the limit 1002c on the right side of=3mm) position is the shape of level to L101.Yet, on grounding pattern 1002, be formed with the gradually thin shape of end at dielectric base plate 805.In addition, the transverse width L103 of grounding pattern 1002 is 20mm, and the length of side L102 of right-hand member is 35mm.And the size of dielectric base plate 805 is identical with the 8th execution mode, is 8mm * 10mm * 1mm.

In the present embodiment, grounding pattern 1002 forms and does not surround the dielectric base plate 805 that comprises plane component, and grounding pattern 1002 sides and dielectric base plate 805 sides are separated up and down.That is, grounding pattern 1002 forms all edge parts that do not surround plane component, and is provided with opening at least a portion of the edge part that comprises notch of plane component.

By forming this grounding pattern 1002, can obtain the impedance operator roughly the same with symmetrical structure.

In addition, Figure 17 B illustrates the antenna structure that becomes comparison other.In the example of Figure 17 B, dielectric base plate 805 is identical with Figure 17 A.The length of the side end of grounding pattern 1022 be 35mm (=L102), transverse width be 20mm (=L103).And the upper edge of grounding pattern 1022 is made of 2 line segments, forms the gradually thin shape of end at dielectric base plate 805.Difference from the highest part of the upper edge of grounding pattern 1022 to lowermost portion be 3mm (=L101).

Figure 18 shows the impedance operator of the antenna of Figure 17 A.For the curve chart of Figure 18, the longitudinal axis is represented VSWR, and transverse axis is represented frequency (GHz).For example VSWR is about 3GHz to 7.8GHz smaller or equal to 2.5 frequency band, has realized broad in band.On the other hand, Figure 19 illustrates the impedance operator of the antenna of Figure 17 B.For the curve chart of Figure 19, the longitudinal axis is represented VSWR, and transverse axis is represented frequency (GHz).For example VSWR is about 3.1GHz to 7.8GHz smaller or equal to 2.5 frequency band, can obtain impedance operator roughly the same in Figure 18 and Figure 19.

[execution mode 11]

Figure 20 shows the antenna structure according to the 11st execution mode of the present invention.In the present embodiment, to describing be formed on the example that dielectric constant is about on 20 the dielectric base plate 1105 as rectangle plane conductor and the plane component 1101 that is provided with notch 1114.The antenna of present embodiment comprises: dielectric base plate 1105, and it comprises plane component 1101 and externally is provided with outer electrode 1105a in inside; Power supply 1107, it is used for and does not make illustrated high frequency electric source and be connected and be connected to plane component 1101 power supplies and with the outer electrode 1105a of dielectric base plate 1105; And grounding pattern 1102, it has the recess 1115 that is used to accommodate power supply 1107 endways, and is formed with the gradually thin shape of end at the power supply position of plane component 1101.In addition, dielectric base plate 1105 for example is arranged on the substrate 1104 as printed base plate, and grounding pattern 1102 is formed on the inside or surface of this substrate 1104.

Outer electrode 1105a is connected with the jut 1101a of plane component 1101, extends to the inside (dotted portion) of dielectric base plate 1105.The side end of power supply 1107 and dielectric base plate 1105 contacts with the set outer electrode 1105a in the inside, overlaps at dotted portion.

Plane component 1101 is provided with: jut 1101a, and it is connected with outer electrode 1105a; Limit 1101b, its limit 1102a and 1102b with grounding pattern 1102 is relative; Arm 1101c, it is used to the current path of guaranteeing that low frequency is used; And the notch 1114 of rectangle, it is recessed to grounding pattern 1102 directions from top 1101d.And limit 1101b is connected by the limit 1101h that is formed by corner cut with side portion 1101g.In addition, the dielectric base plate 1105 that comprises plane component 1101 is set up in parallel with grounding pattern 1102.

In addition, in the present embodiment, be formed with plane component 1101 in the inside of dielectric base plate 1105.That is, dielectric base plate 1105 forms by the laminated ceramic thin plate, also forms wherein one deck of conducting plane element 1101 conducts.Therefore, even in fact see, also cannot see as shown in figure 20 from above.But, can form plane component 1101 on dielectric base plate 1105 surfaces.

Because on grounding pattern 1102, be provided with the recess 1115 that is used to accommodate power supply 1107 constituting by limit 1102a and 1102b and have the terminal gradually end of thin shape, thereby the edge part of the grounding pattern 1102 relative with plane component 1101 is not a straight line, but is divided into 2 limit 1102a and 1102b.In addition, the antenna of present embodiment is left-right symmetric with respect to the straight line 1111 at the center of the power supply 1107 by becoming the power supply position.The gradually thin shape part of the notch 1114 of rectangle and the end of grounding pattern 1102 also is a left-right symmetric.And limit 1102a and 1102b tilt, thereby the limit 1102a of the limit 1101b of plane component 1101 and grounding pattern 1102 and the distance between the 1102b are along with increasing linearly away from straight line 1111.

In the present embodiment, grounding pattern 1102 forms and does not surround the dielectric base plate 1105 that comprises plane component 1101, and grounding pattern 1102 sides and dielectric base plate 1105 sides are separated up and down.That is, grounding pattern 1102 forms all edge parts that do not surround plane component 1101, and is provided with opening at least a portion of the edge part that comprises notch 1114 of plane component 1101.

In addition, for side structure, except the part of power supply 1107 and outer electrode 1105a, roughly the same with Figure 13 B.That is, comprising the face of dielectric base plate 1105 of plane component 1101 and the face of grounding pattern 1102 is configured to parallel or almost parallel.

Figure 21 illustrates the impedance operator of the antenna of present embodiment.In Figure 21, the longitudinal axis is represented VSWR, and transverse axis is represented frequency (GHz).VSWR is that about 3.1GHz is to about 7.6GHz smaller or equal to 2.5 frequency band.Though the VSWR value has the part that significantly changes in high frequency band, but enlarged the frequency band of lower frequency side, for example VSWR is 2.5 when about 3.1GHz, as mentioned above, has improved the impedance operator of low-frequency band side by the plane component with notch.

[execution mode 12]

Figure 22 shows the antenna structure of the 12nd execution mode of the present invention.In the present embodiment, be that the plane component 1201 of circular arc is formed on the example that dielectric constant is about on 20 the dielectric base plate 1205 and describes to the part relative with grounding pattern 1202.The antenna of the 12nd execution mode comprises: dielectric base plate 1205, and it comprises conducting plane element 1201 and externally is provided with outer electrode 1205a in inside; Power supply 1207, it is used for and does not make illustrated high frequency electric source and be connected and be connected to plane component 1901 power supplies and with the outer electrode 1205a of dielectric base plate 1205; And grounding pattern 1202, it has the recess 1215 that is used to accommodate power supply 1207, and is formed on the substrate 1204 of printed base plate etc.Outer electrode 1205a is connected with the jut 1201a of plane component 1201, extends to the inside (dotted portion) of dielectric base plate 1205.The side end of power supply 1207 and dielectric base plate 1205 contacts with the set outer electrode 1205a in the inside, overlaps at dotted portion.

Plane component 1201 is provided with: jut 1201a, and it is connected with outer electrode 1205a; Curve part 1201b, its limit 1202a with grounding pattern 1202 is relative; Arm 1201c, it is used to the current path of guaranteeing that low frequency is used; And the notch 1214 of rectangle, it is recessed to grounding pattern 1202 directions from top 1201d.The dielectric base plate 1205 that comprises plane component 1201 is set up in parallel with grounding pattern 1202.

In addition, in the present embodiment, be formed with plane component 1201 in the inside of dielectric base plate 1205.That is, dielectric base plate 1205 forms by the laminated ceramic thin plate, also forms the plane component 1201 of conductor as one deck wherein.Therefore, even in fact see, also cannot see as shown in figure 22 from above.If constitute plane components 1501 in that dielectric base plate 1205 is inner, then compare with the situation that plane component 1501 is exposed, because dielectric effect strengthens to some extent, thereby can realize miniaturization, also increase for the reliability of corrosion etc.But, can form plane component 1201 on dielectric base plate 1205 surfaces.

Because grounding pattern 1202 is provided with the recess 1215 that is used to accommodate power supply 1207, thereby the limit 1202a relative with plane component 1201 be not a straight line, but be divided into 2 limits.In addition, the antenna of present embodiment is left-right symmetric with respect to the straight line 1211 at the center of the power supply 1207 by becoming the power supply position.The notch 1214 of rectangle also is a left-right symmetric.Distance between the curve part 1201b of plane component 1201 and the limit 1202a of grounding pattern 1202 is along curve part 1201b, along with increasing gradually away from straight line 1211.And, be symmetrical with respect to straight line 1211.In addition, for side structure, except the part of power supply 1207 and outer electrode 1205a, roughly the same with Figure 13 B.That is, comprising the face of dielectric base plate 1205 of plane component 1201 and the face of grounding pattern 1202 is configured to parallel or almost parallel.

In the present embodiment, grounding pattern 1202 forms and does not surround the dielectric base plate 1205 that comprises plane component 1201, and grounding pattern 1202 sides and dielectric base plate 1205 sides are separated up and down.That is, grounding pattern 1202 forms all edge parts that do not surround plane component 1201, and is provided with opening at least a portion of the edge part that comprises notch 1214 of plane component 1201.

Figure 23 shows the impedance operator of the antenna of present embodiment.In Figure 23, the longitudinal axis is represented VSWR, and transverse axis is represented frequency (GHz).VSWR is that about 3.2GHz is to about 8.2GHz smaller or equal to 2.5 frequency band.Compare the impedance operator of the 11st execution mode (Figure 21) with according to the impedance operator (Figure 23) of present embodiment, the characteristic of low-frequency band is roughly constant, and the characteristic of high frequency band has very big-difference.For the shape of the plane component 1201 of the shape of the plane component 1101 of the 11st execution mode and present embodiment, the part that has rectangular slits portion is identical, from Figure 21 and Figure 23 more as can be known, rectangular slits portion helps the characteristic of low-frequency band to improve.On the other hand, shape for the plane component 1201 of the shape of the plane component 1101 of the 11st execution mode and present embodiment, between plane component and grounding pattern apart from aspect be different, from relatively waiting as can be known of Figure 21 and Figure 23, this different piece exerts an influence to whole frequency band, particularly in high frequency band, this influence significantly.

[execution mode 13]

In following execution mode 13 to 16, show the optimization example of ground connection shape and to the application examples of wireless communication card.Basically use the shape of dielectric base plate 1105 shown in the 11st execution mode (Figure 20) and plane component 1101 and grounding pattern 1102.By adopting this shape, can realize the ultra-wide band antenna of about 3GHz to 12GHz.Particularly, because on grounding pattern 1102, form the gradually thin shape of end at the power supply position 1101a of plane component 1101, thereby can regulate the degree of coupling of plane component 1101 and grounding pattern 1102, the result can obtain good impedance operator.In addition, for divide set limit 1101h in the bottom side portion of plane component shown in Figure 20 1101, can not be provided with.

In the present embodiment, Figure 24 show be applied to that PC card and Compact Flash (registered trade mark) (CF) block etc. be inserted into personal computer and PDA (Personal DigitalAssistant: the personal digital assistant) example of the wireless communication card that uses in etc. the slot.Figure 24 illustrates printed base plate 1304, and this printed base plate 1304 has: the dielectric base plate 1105 identical with the dielectric base plate of the 11st execution mode, the high frequency electric source 1303 that is connected with power supply position 1101a, and grounding pattern 1302.Dielectric base plate 1105 is in the right or upper left end of printed base plate 1304, be configured to grounding pattern 1302 separate L132 (=1mm).On grounding pattern 1302,, form the gradually thin shape of end at power supply position 1101a by limit 1302a and the 1302b relative with dielectric base plate 1105.The difference in height L133 of the point that intersects from the right-hand end and the limit 1302a of the point of the nearest grounding pattern 1302 of power supply position 1101a and printed base plate 1304 is 2 to 3mm, yet following the characteristic that has changed the situation of this length when the comparison impedance operator is described.Terminal gradually thin shape be symmetrical with respect to the straight line by power supply position 1101a, however limit 1302b be connected with the vertical edges 1302c of length L 133, this limit 1302c is connected with horizontal sides 1302d.In Figure 24, limit 1302d is a level, and dielectric base plate 1105 and grounding pattern 1302 separate this zone up and down.That is, grounding pattern 1302 forms all edge parts that do not surround the plane components that comprised in the dielectric base plate 1105, and is provided with opening at least a portion of the edge part that comprises notch of plane component.In addition, length L 131 is 10mm.

[execution mode 14]

Figure 25 shows the printed base plate 1404 of the wireless communication card of present embodiment.The printed base plate 1404 of present embodiment has: with the dielectric base plate 1105 identical according to the dielectric base plate of the 11st execution mode, and the high frequency electric source 1403a that is connected with power supply position 1101a, and grounding pattern 1402.Dielectric base plate 1105 is in the upper right end of printed base plate 1404, be configured to grounding pattern 1402 separate L132 (=1mm).On grounding pattern 1402,, form the gradually thin shape of end at the power supply position 1101a of plane component 1101 by limit 1402a and the 1402b relative with dielectric base plate 1105.The beeline of grounding pattern 1402 and dielectric base plate 1105 is L132.The difference in height L133 between the crossing point of the right-hand end of the nearest point of power supply position 1101a and printed base plate 1404 and limit 1402a of grounding pattern 1402 is 2 to 3mm.The gradually thin shape of the end that is made of limit 1402a and 1402b is a symmetry with respect to the straight line by power supply position 1101a, however limit 1402b be connected with the vertical edges 1402c of length L 133, this limit 1402c is connected with horizontal sides 1402d.In the present embodiment, limit 1402d also is connected with vertical edges 1402e.Like this, grounding pattern 1402 forms by limit 1402e, limit 1402d, limit 1402c, limit 1402b and limit 1402a and partly surrounds dielectric base plate 1105.That is, grounding pattern 1402 forms all edge parts that do not surround plane component 1101, and is provided with opening at least a portion of the edge part that comprises notch 1114 of plane component 1101.In the present embodiment, the grounding pattern 1402 relative with margo dexter portion with the upper edge that comprises notch 1114 of plane component 1101 is not set, we can say,, then be provided with opening if do not consider the lid of printed base plate 1404.In addition, L131 is 10mm.And, in Figure 25, be illustrated in an example of upper right side configuration dielectric base plate 1105, yet can dispose dielectric base plate 1105 at left upper end.At this moment, the zone of grounding pattern 1402 extends to the right side of dielectric base plate 1105.

Figure 26 shows the figure that the difference that is used for the caused impedance operator of difference that whether exists the difference of the length of L133 with by the left ground area 1402f of dielectric base plate 1105 compares.In Figure 26, the longitudinal axis is represented VSWR, transverse axis is represented frequency (MHz), single-point line expression is set at 3mm to L133 and is provided with the characteristic of the situation of ground area 1402f, dotted line represents L133 is set at the characteristic of the situation of 3mm, double dot dash line represents L133 is set at the characteristic of the situation of 0mm, and solid line represents L133 is set at the characteristic of the situation of 2mm, and thick line represents L133 is set at the characteristic of the situation of 2.5mm.From the expression L133=0mm characteristic double dot dash line as can be known, the bad characteristic that about 7700MHz is later.And the solid line of the characteristic of expression L133=2mm produces big peak value when about 7800MHz.On the thick line of the characteristic of representing L133=2.5mm, when about 7900MHz, produce the peak value lower than solid line.When observing the dotted line of the characteristic of representing L133=3mm, have VSWR from about 6400MHz to about 8000MHz and surpass 2 part, however the peak value reduction, the later characteristic of about 8000MHz is being expressed superperformance near 12000MHz and before VSWR surpasses 2 once more.And, in low-frequency band, and to compare below the L133=2.5mm, the VSWR value is low.Appended single-point when line of characteristic of the situation of ground area 1402f when observation is illustrated in L133=3mm, has partly produced low peak if remove at about 4500MHz, after then about 3500MHz, VSWR is smaller or equal to 2 always.If is about 2.4, then can realize the ultrabroad band of about 3000MHz to 12000MHz to the threshold setting of VSWR.The ground area 1402f in the left side by appending dielectric base plate 1105 like this, the effect that has is, from about 6000MHz to 9000MHz and the VSWR from about 3000MHz to 4000MHz of low-frequency band improve.

[execution mode 15]

In the present embodiment, show example when the 14th execution mode is applied to diversity antenna.Usually, spatial diversity antennas is switched 2 antennas that 1/4 wavelength is left in use.Therefore, as shown in figure 27,2 dielectric base plates are configured in the upper end, the left and right sides of printed base plate 1504.

As the 1st antenna, comprise: with the identical dielectric base plate 1105 of dielectric base plate in the 11st execution mode, the high frequency electric source 1503a that is connected with power supply position 1101a, and grounding pattern 1502.Dielectric base plate 1105 is in the upper right end of printed base plate 1504, is configured to separate 1mm with grounding pattern 1502 in vertical direction.By the limit 1502a and the 1502b of grounding pattern 1502, form the gradually thin shape of end at the supply terminals 1101a of plane component 1101.From the difference in height of the crossing point of the right-hand end of the point of the nearest grounding pattern 1502 of power supply position 1101a and printed base plate 1504 and limit 1502a is 2 to 3mm.The gradually thin shape of the end that is made of limit 1502a and 1502b is a symmetry with respect to the straight line by power supply position 1101a, however limit 1502b be connected with vertical edges 1502c, this limit 1502c is connected with horizontal sides 1502d.Limit 1502d also is connected with vertical edges 1502e.That is it is relative and be used for and the 2nd antenna separated portions 1502f, to append left surface with dielectric base plate 1105 on grounding pattern 1502.Like this, grounding pattern 1502 has the shape of partly surrounding dielectric base plate 1105 by limit 1502e, limit 1502d, limit 1502c, limit 1502b and limit 1502a.That is, grounding pattern 1502 forms all edge parts that do not surround plane component 1101, and is provided with opening at least a portion of the edge part that comprises notch 1114 of plane component 1101.In the present embodiment, the grounding pattern 1502 relative with margo dexter portion with the upper edge that comprises notch 1114 of plane component 1101 is not set, we can say,, then be provided with opening if do not consider the lid of printed base plate 1504.

As the 2nd antenna, comprise: the dielectric base plate 1505 identical, the high frequency electric source 1503b that is connected with power supply position 1501a, and grounding pattern 1502 with dielectric base plate 1105.Dielectric base plate 1505 is in the upper left end of printed base plate 1504, is configured to separate 1mm with grounding pattern 1502 in vertical direction.By the limit 1502g and the 1502h of grounding pattern 1502, form the gradually thin shape of end at the power supply position 1501a of the plane components that comprised in the dielectric base plate 1505.The difference in height between the crossing point of the left end of the nearest point of power supply position 1501a and printed base plate 1504 and limit 1502g of grounding pattern 1502 is 2 to 3mm.The gradually thin shape of the end that is made of limit 1502g and 1502h is a symmetry with respect to the straight line by power supply position 1501a, however limit 1502h be connected with vertical edges 1502i, this limit 1502i is connected with horizontal sides 1502j.Limit 1502j also is connected with vertical edges 1502k.It is relative and be used for and the 1st antenna separated portions 1502f to have right flank with dielectric base plate 1505 on grounding pattern 1502.Like this, grounding pattern 1502 has the shape of partly surrounding dielectric base plate 1505 by limit 1502g, limit 1502h, limit 1502i, limit 1502j and limit 1502k.That is, grounding pattern 1502 forms all edge parts that do not surround the plane components that comprised in the dielectric base plate 1505, and is provided with opening at least a portion of the edge part that comprises notch of plane component 1101.In the present embodiment, the grounding pattern 1502 relative with left border portion with the upper edge that comprises notch of plane component is not set, we can say,, then be provided with opening if do not consider the lid of printed base plate 1504.Basically, the printed base plate 1504 of this wireless communication card is a left-right symmetric with respect to straight line 1511.

Like this, can be in wireless communication card the installing space diversity antenna.

[execution mode 16]

In the present embodiment, Figure 28 shows the example of the antenna applications of the 11st execution mode when the excellent type card.The printed base plate 1604 of present embodiment has: with the identical dielectric base plate 1105 of dielectric base plate in the 11st execution mode, and from the high frequency electric source 1603 of power supply position 1101a connection, and grounding pattern 1602.Dielectric base plate 1105 is in the upper end of printed base plate 1604, be configured to grounding pattern 1602 separate L162 (=1mm).On grounding pattern 1602, form the gradually thin shape of end at the power supply position 1101a of dielectric base plate 1105 by limit 1602a and 1602b.The difference in height L163 between the crossing point of the side end of the nearest point of power supply position 1101a and printed base plate 1604 and limit 1602a or 1602b of grounding pattern 1602 is 2 to 3mm.And the grounding pattern 1602 that is formed with terminal gradually thin shape is symmetry with respect to the straight line by power supply position 1101a.In addition, L161 is 10mm.

In the present embodiment, grounding pattern 1602 forms and does not surround the dielectric base plate 1105 that comprises plane component, and grounding pattern 1602 sides and dielectric base plate 1105 sides are separated up and down.That is, grounding pattern 1602 forms all portions of having chance with that do not surround plane component, and is provided with opening at least a portion of the edge part that comprises notch of plane component.

If use dielectric base plate 1105 like this, then can be installed on the little excellent type card.

[execution mode 17]

Figure 29 A and Figure 29 B show the antenna structure according to the 17th execution mode of the present invention.Shown in Figure 29 A, the antenna of present embodiment comprises: dielectric base plate 1705, and it comprises plane component 1701 and dielectric constant about 20 in inside; Grounding pattern 1702, itself and dielectric base plate 1705 are set up in parallel; For example as the substrate 1704 of printed base plate (being the resin substrate of material for example more particularly) with FR-4, Teflon (registered trade mark) etc.; And high frequency electric source 1703, it is connected with the supply terminals 1701a of plane component 1701.Plane component 1701 has the shape that is similar to the T word, it comprises: along the base 1701b of the end of dielectric base plate 1705, extend to the limit 1701c of top, have the limit 1701d at the 1st inclination angle, limit 1701e with inclination angle bigger, and top 1701f than the 1st inclination angle.Supply terminals 1701a is arranged on along the mid point of the base 1701b of the end of dielectric base plate 1705.In the present embodiment, the distance L 171 of dielectric base plate 1705 and grounding pattern 1702 is 1.5mm.And the width of grounding pattern 1702 is 20mm.

And plane component 1701 and grounding pattern 1702 are left-right symmetric with respect to the straight line 1711 by supply terminals 1701a.And, be parallel to the length (hereinafter referred to as distance) that straight line 1711 drops to the line segment of grounding pattern 1702 from limit 1701c, the 1701d of plane component 1701 and the point on the 1701e and also be left-right symmetric with respect to straight line 1711.That is, if identical with the interval of straight line 1711, then distance is identical.

In the present embodiment, the limit 1702a in the face of dielectric base plate 1705 of grounding pattern 1702 is a straight line.Therefore, distance moves on this limit 1701c, 1701d and 1701e along with the arbitrfary point of limit 1701c, 1701d and 1701e and increases gradually.That is, distance is along with above-mentioned arbitrfary point increases away from straight line 1711.

Though the broken line that constitutes by fillet 1701c, 1701d and 1701e is not a curve, the interim gradient that changes makes distance increase saturatedly.In other words, initial when away from straight line 1711, distance sharply increases, yet increment rate reduces gradually.That is, become following shape: from straight line 1711, the straight line that connects the end points of the end points of the top 1701f be positioned at same side and base 1701b is inwards cut into.

In the present embodiment, the side edge part relative with the limit 1702a of grounding pattern 1702 of plane component 1701 is made of 1701c, 1701d and these 3 line segments of 1701e.Yet as long as satisfy the condition of the saturated increase of distance, the shape of this side edge part is not limited thereto.Can replace limit 1701c, 1701d and 1701e, adopt the broken line that constitutes by the line segment of counting arbitrarily more than 2.And, also can replace limit 1701c, 1701d and 1701e, adopt from straight line 1711, the straight line that is positioned at the end points of the end points of top 1701f of same side and base 1701b with respect to connection is the curve of epirelief.That is, be inboard protruding curve, from plane component 1701.

No matter adopt which kind of shape, along with away from straight line 1711, apart from variation continuously, because the existence of this continuous changing unit can obtain continuous resonance characteristics more than lower frequency limit.In addition, the adjusting of lower frequency limit is undertaken by the height that changes plane component 1701.Yet, also can control according to the length of top 1701f and against the shape and the length of circular-arc side edge part.

In the present embodiment, grounding pattern 1702 forms and does not surround the dielectric base plate 1705 that comprises plane component 1701, and grounding pattern 1702 sides and dielectric base plate 1705 sides are separated up and down.That is, grounding pattern 1702 forms all edge parts that do not surround plane component 1701, and is provided with opening at least a portion of the edge part of plane component 1701.

Figure 29 B is an end view, and substrate 1704 is provided with grounding pattern 1702 and dielectric base plate 1705.Substrate 1704 and grounding pattern 1702 can form as one.In addition, in the present embodiment, form plane component 1701 in the inside of dielectric base plate 1705.That is, dielectric base plate 1705 forms by the laminated ceramic thin plate, also forms wherein one deck of conducting plane element 1701 conducts.Therefore, even in fact see, shown in Figure 29 A, also cannot see from above.If constitute plane components 1701 in that dielectric base plate 1705 is inner, then compare with the situation that plane component 1701 is exposed, because dielectric effect strengthens to some extent, thereby can realize miniaturization, also increase for the reliability of corrosion etc.But, can on dielectric base plate 1705 surfaces, form plane component 1701.And, also can change dielectric constant, can use any one party in single layer substrate and the multilager base plate.If single layer substrate then forms plane component 1701 on dielectric base plate 1705.In addition, in the present embodiment, the face of dielectric base plate 1705 is configured to be parallel to or be roughly parallel to the face of grounding pattern 1702.According to this configuration, the face of the plane component 1701 that is comprised in one deck of dielectric base plate 1705 also is parallel to or is roughly parallel to the face of grounding pattern 1702.

When forming by the form by dielectric base plate 1705 overlay planes elements 1701 in this wise, the electromagnetic field state of plane component 1701 peripheries changes according to dielectric.Specifically, owing to can obtain to strengthen the effect and the wavelength decreases effect of the electric field density in the dielectric, thereby can make plane component 1701 miniaturizations.And, according to these effects, the excitation angle of current path is changed, inductive component L and capacitive component C in the impedance equivalent electric circuit of antenna are changed.That is, impedance operator is produced big influence.According to influence,,, become the shape shown in Figure 29 A so that when in the frequency band of 4.9GHz to 5.8GHz, obtaining the impedance operator of expectation when the optimization of carrying out shape to this impedance operator.This frequency bandwidth non-constant width compared with the past.

[execution mode 18]

Figure 30 shows the antenna structure of the 18th execution mode of the present invention.As shown in figure 30, the antenna of present embodiment comprises: dielectric base plate 1805, and it comprises plane component 1801 and dielectric constant and is about 20 in inside; Grounding pattern 1802, itself and dielectric base plate 1805 are set up in parallel; For example as the substrate 1804 of printed base plate; And high frequency electric source 1803, it is connected with the supply terminals 1801a of plane component 1801.Plane component 1801 and dielectric base plate 1805 are identical with dielectric base plate 1705 with plane component 1701 in the 17th execution mode.In the present embodiment, the distance L 181 of dielectric base plate 1805 and grounding pattern 1802 is 1.5mm.And the width of grounding pattern 1802 is 20mm.

And plane component 1801 and grounding pattern 1802 are left-right symmetric with respect to the straight line 1811 by supply terminals 1801a.And, be parallel to the length (hereinafter referred to as distance) that straight line 1811 drops to the line segment of grounding pattern 1802 from limit 1801c, the 1801d of plane component 1801 and the point on the 1801e and also be left-right symmetric with respect to straight line 1811.That is, if identical with the interval of straight line 1811, then distance is identical.

In the present embodiment, the limit 1802a and the 1802b in the face of dielectric base plate 1805 of grounding pattern 1802 are inclined to, and the distance between plane component 1801 and the grounding pattern 1802 is along with increasing away from straight line 1811.In the present embodiment, the length L 182 (=2 to 3mm) according to side end descends downwards from the intersection point with straight line 1811.That is, grounding pattern 1802 has the gradually thin shape of the end that is made of rising wood 1802a and 1802b at dielectric base plate 1805.

In the present embodiment, grounding pattern 1802 forms and does not surround the dielectric base plate 1805 that comprises plane component 1801, and grounding pattern 1802 sides and dielectric base plate 1805 sides are separated up and down.That is, grounding pattern 1802 forms all edge parts that do not surround plane component 1801, and is provided with opening at least a portion of the edge part of plane component 1801.

And side structure is identical with Figure 29 B.That is, comprising the face of dielectric base plate 1805 of plane component 1801 and the face of grounding pattern 1802 is configured to parallel or almost parallel.

As present embodiment, tilt by limit 1802a and the 1802b that makes grounding pattern 1802, in the frequency band of 4.9GHz to 5.8GHz, compare with the antenna of the 17th execution mode, it is good to confirm as impedance operator.

[execution mode 19]

Figure 31 shows the antenna structure 4 of the 19th execution mode of the present invention.In the present embodiment, all channel antenna example to the 5GHz frequency band describes.The antenna of the 19th execution mode comprises: dielectric base plate 1905, and it comprises the plane component 1901 of the shape that is similar to the T type and externally is provided with outer electrode 1905a in inside; Power supply 1907, it is used for and omits illustrated high frequency electric source and is connected to come to plane component 1901 and powers and be connected with the outer electrode 1905a of dielectric base plate 1905; And grounding pattern 1902, it has the recess 1915 that is used to accommodate power supply 1907, and is formed on printed base plate etc.Outer electrode 1905a is connected with the bottom of plane component 1901, extends to the inside (dotted portion) of dielectric base plate 1905.Power supply 1907 contacts with the side end of dielectric base plate 1905 and the outer electrode 1905a of the inside, overlaps at dotted portion.

Plane component 1901 is provided with: the end that is connected with outer electrode 1905a, the curve 1901b relative with the limit 1902a of grounding pattern 1902, and top 1901c.In addition, the dielectric base plate 1905 that comprises plane component 1901 is set up in parallel with grounding pattern 1902.

In addition, in the present embodiment, be formed with plane component 1901 in the inside of dielectric base plate 1905.That is, dielectric base plate 1905 forms by the laminated ceramic thin plate, also forms wherein one deck of conducting plane element 1901 conducts.Therefore, even in fact see, also cannot see as shown in figure 31 from above.But, can form plane component 1901 on dielectric base plate 1905 surfaces.

Because grounding pattern 1902 is provided with the recess 1915 that is used to accommodate power supply 1907, thereby the limit 1902a relative with plane component 1901 be not a straight line, but be divided into 2 limits.In addition, the antenna of present embodiment is left-right symmetric with respect to the straight line 1911 at the center of the power supply 1907 by becoming the power supply position.Distance between the curve 1901b of plane component 1901 and the limit 1902a of grounding pattern 1902 is along with increasing along curve away from straight line 1911.And distance is a left-right symmetric with respect to straight line 1911 also.Yet owing to curve 1901b protrudes in the inboard of plane component 1901, thereby this distance is along with becoming saturated away from straight line 1911.In other words, initial when away from straight line 1911, distance sharply increases, but increment rate reduces gradually.In addition, for side structure,, then identical with Figure 29 B if remove the part of outer electrode 1905a and power supply 1907 and recess 1915.That is, comprising the face of dielectric base plate 1905 of plane component 1901 and the face of grounding pattern 1902 is configured to parallel or almost parallel.That is, grounding pattern 1902 and plane component 1901 are not to overlap fully mutually, and their face is parallel to each other or almost parallel.

In the present embodiment, grounding pattern 1902 forms and does not surround the dielectric base plate 1905 that comprises plane component 1901, and grounding pattern 1902 sides and dielectric base plate 1905 sides are separated up and down.That is, grounding pattern 1902 forms all edge parts that do not surround plane component 1901, and is provided with opening at least a portion of the edge part of plane component 1901.

[execution mode 20]

The antenna of the 20th execution mode of the present invention is the double frequency band aerial of 2.4GHz frequency band and 5GHz frequency band.This double frequency band aerial shown in figure 32, comprising: dielectric base plate 2005, and it comprises the 1st element 2001 of planar conductor and the 2nd element 2006 as resonant element that extends from the center of top of the 1st element 2001 in inside; Grounding pattern 2002, itself and dielectric base plate 2005 devices spaced apart L202 (=1.5mm) be set up in parallel, and make upper edge have the gradually thin shape of end at dielectric base plate 2005; Substrate 2004, it is provided with dielectric base plate 2005 and grounding pattern 2002; And high frequency electric source 2003, it is connected with the set supply terminals 2001a of the base central portion of the 1st element 2001.The size of dielectric base plate 2005 for example is 8mm * 4.5mm * 1mm.

The 1st element 2001 has the shape that is similar to the T word, more particularly, has the shape identical with the plane component 1701 shown in Figure 29 A.Carry out the frequency band control of 5GHz frequency band by the height L201 of the 1st element 2001.But, also can control by the length of side at top and against the shape and the length of circular-arc side edge part.

Grounding pattern 2002 is in the position of wide 20mm, from the intersection point of straight line 2011 by supply terminals 2001a to the both side ends L203 (=2 to 3mm) that descends.That is, grounding pattern 2002 has the gradually thin shape of the end that is made of rising wood 2002a and 2002b at dielectric base plate 2005.

In addition, for side structure,, then roughly the same with Figure 29 B if remove the part of the 2nd element 2006.That is, comprising the face of dielectric base plate 2005 of the 1st element 2001 and the 2nd element 2006 and the face of grounding pattern 2002 is configured to parallel or almost parallel.But, the 2nd element 2006 and the 1st element 2001 can be arranged on on one deck.

The 1st element 2001 and grounding pattern 2002 are left-right symmetric with respect to straight line 2011.And the point from the side edge part of the 1st element 2001 is parallel to the length (hereinafter referred to as distance) that straight line 2011 drops to the line segment of grounding pattern 2002 and also is left-right symmetric with respect to straight line 2011.And above-mentioned distance increases away from straight line 2011 gradually along with the side edge part that moves the 1st element 2001 makes it.

Shape by this 1st element 2001 and grounding pattern 2002 is come the control group characteristic.And, by regulating from controlling the resonance frequency of 2.4GHz frequency band to the length of the 2nd element 2006 of open end with the connecting portion of the 1st element 2001.In addition, the shape of the 2nd element 2006 so that realize miniaturization, is brought harmful effect can for the characteristic of the 1st element 2001 by warpage.

By adopting this shape, can control respectively the electrical characteristics of 5GHz frequency band and 2.4GHz frequency band.5GHz frequency band and 2.4GHz frequency band are that (Local Area Network: the frequency band that uses in standard local area network (LAN)), the present embodiment that can tackle these two kinds of frequency bands are very useful in WLAN.

[execution mode 21]

The antenna of the 21st execution mode of the present invention is the double frequency band aerial of 2.4GHz frequency band and 5GHz frequency band.This double frequency band aerial as shown in figure 33, comprising: dielectric base plate 2105, and it comprises the 1st element 2101 of planar conductor and the 2nd element 2106 as resonant element that extends from the top center of top of the 1st element 2101 in inside; Grounding pattern 2102, itself and dielectric base plate 2105 devices spaced apart L212 (=1.5mm) be set up in parallel, and make rising wood have the gradually thin shape of end at dielectric base plate 2105; Substrate 2104, it is provided with dielectric base plate 2105 and grounding pattern 2102; And high frequency electric source 2103, it is connected with the set supply terminals 2101a of the base central portion of the 1st element 2101.The size of dielectric base plate 2105 for example is 10mm * 5mm * 1mm.

The 1st element 2101 has the shape that is similar to the T word, more particularly, has the shape identical with the plane component 1701 shown in Figure 29 A.Carry out the frequency band control of 5GHz frequency band by the height L211 of the 1st element 2101.But, also can control by the length of side at top and against the shape and the length of circular-arc side edge part.

Grounding pattern 2102 is in the position of wide 20mm, from the intersection point of straight line 2111 by supply terminals 2101a to the both side ends L213 (=2 to 3mm) that descends.That is, grounding pattern 2102 has the gradually thin shape of the end that is made of rising wood 2102a and 2102b at dielectric base plate 2105.For side structure,, then roughly the same with Figure 29 B if remove the part of the 2nd element 2106.That is, comprising the face of dielectric base plate 2105 of the 1st element 2101 and the 2nd element 2106 and the face of grounding pattern 2102 is configured to parallel or almost parallel.But the 2nd element 2106 and the 1st element 2101 can be arranged on on one deck.

The 1st element the 2101, the 2nd element 2106 and grounding pattern 2102 are left-right symmetric with respect to straight line 2111.And the point from the side edge part of the 1st element 2101 is parallel to the length (hereinafter referred to as distance) that straight line 2111 drops to the line segment of grounding pattern 2102 and also is left-right symmetric with respect to straight line 2111.And above-mentioned distance increases away from straight line 2111 gradually along with the side edge part that moves the 1st element 2101 makes it.

Shape by this 1st element 2101 and grounding pattern 2102 is come the control group characteristic.And, by regulating from controlling the resonance frequency of 2.4GHz frequency band to the length of the 2nd element 2106 of open end with the connecting portion of the 1st element 2101.In addition, the meanders of the 2nd element 2106 forms by last.This be because, produce the dysgenic while in characteristic not to the 1st element 2101, in the useful space, effectively dispose.As shown in figure 34, space 2116 is to bring dysgenic part to the characteristic of the 1st element 2101, adopts the structure that does not dispose the 2nd element 2106 in this part.And the 2nd element 2106 is not configured in the zone than dotted line 2121 more close the 1st element 2101 sides at least.This dotted line 2121 is that the end points away from the side edge part of supply terminals 2101a with the 1st element 2101 is that starting point is parallel to the half line that straight line 2111 extends to the direction of supply terminals 2101a.

By adopting this shape, can control respectively the electrical characteristics of 5GHz frequency band and 2.4GHz frequency band.5GHz frequency band and 2.4GHz frequency band are the frequency bands that uses in the WLAN standard, and the present embodiment that can tackle these two kinds of frequency bands is very useful.

Antenna performance under the situation that has adopted the mounting means shown in Figure 35 A and Figure 35 B for example is shown.Shown in Figure 35 A and Figure 35 B, with identical dielectric base plate 2105 shown in Figure 33, its upper edge and horizontal grounding pattern 2108 separate 1.5mm and are set up in parallel.As shown in figure 33, dielectric base plate 2105, its size is 10mm * 5mm * 1mm, comprises the 1st element 2101 and the 2nd element 2106.On the other hand, the size of grounding pattern 2108 is high 47mm, wide 12mm.The thickness of substrate 2104 is 0.8mm.In addition, the figure shown in Figure 35 A is the XY plane, and the figure shown in Figure 35 B is the XZ plane.

At this moment, the impedance operator of the 2nd element 2106 as shown in figure 36.In Figure 36, the longitudinal axis is VSWR, and transverse axis is frequency (GHz).The frequency of VSWR minimum is about 2.45GHz, and VSWR is about 2.20GHz to 2.67GHz smaller or equal to 2 frequency band, has guaranteed about about 470MHz.On the other hand, the impedance operator of the 1st element 2101 as shown in figure 37.The frequency of VSWR minimum is about 5.2GHz, and VSWR is about more than the 4.6GHz to 6GHz smaller or equal to 2 frequency band, has guaranteed 1.4GHz at least.Like this, the 2nd element 2106 and the 1st element 2101 have all been realized broadband.That is, the antenna that shows present embodiment has the abundant function as double frequency band aerial.In addition, on grounding pattern 2108, can enclose tapering to dielectric base plate 2105.

And Figure 38 A to Figure 38 F shows the directive property of the antenna shown in Figure 35 A and Figure 35 B.Figure 38 A shows from the electric wave of transmitter side antenna transmission 2.45GHz, the radiation diagram when as the mensuration face receiver side antenna shown in Figure 35 A and Figure 35 B being rotated.In addition, for concentric circles, the center is-45dBi, and outermost circle is 5dBi, each circle be 10dBi at interval.Here, the radiation diagram of the receiver side antenna when inboard solid line has been represented from the transmitter side antenna transmission electric wave of vertically polarized wave, the radiation diagram of the receiver side antenna the when thick line in the outside has been represented from the transmitter side antenna transmission electric wave of horizontal polarized wave.For horizontal polarized wave, bigger in all directive gains as can be known.And, under the situation of vertically polarized wave, can find out in 0 ° ,-90 ° and 180 ° of directions to have directive property.In addition, the antenna of top-right figure presentation graphs 35A and Figure 35 B.Blacking partly is the position that is provided with dielectric base plate 2105.Vertical arrows is represented 0 ° of direction, and angle increases to+θ direction.

Equally, Figure 38 B illustrates from the electric wave of transmitter side antenna transmission 2.45GHz, the radiation diagram when as the mensuration face receiver side antenna shown in Figure 35 A and Figure 35 B being rotated.Same as described above, the radiation diagram of the receiver side antenna the when radiation diagram of the receiver side antenna when solid line has been represented from the transmitter side antenna transmission electric wave of vertically polarized wave, thick line have been represented from the transmitter side antenna transmission electric wave of horizontal polarized wave.For horizontal polarized wave, can find out in 0 ° and 180 ° of directions to have directive property.And,, can find out in 0 °, 90 ° and 180 ° of directions to have directive property for vertically polarized wave.In addition, top-right figure's is equivalent in meaning.

Figure 38 C illustrates from the electric wave of transmitter side antenna transmission 2.45GHz, the radiation diagram when as the mensuration face receiver side antenna shown in Figure 35 A and Figure 35 B being rotated.Same as described above, the radiation diagram of the receiver side antenna the when radiation diagram of the receiver side antenna when solid line has been represented from the transmitter side antenna transmission electric wave of vertically polarized wave, thick line have been represented from the transmitter side antenna transmission electric wave of horizontal polarized wave.For horizontal polarized wave, can find out in 0 ° and 180 ° of directions to have directive property.And,, show non-directive for vertically polarized wave.In addition, top-right figure's is equivalent in meaning.

Figure 38 D illustrates from the electric wave of transmitter side antenna transmission 5.4GHz, the radiation diagram when as the mensuration face receiver side antenna shown in Figure 35 A and Figure 35 B being rotated.Same as described above, the radiation diagram of the receiver side antenna the when radiation diagram of the receiver side antenna when solid line has been represented from the transmitter side antenna transmission electric wave of vertically polarized wave, thick line have been represented from the transmitter side antenna transmission electric wave of horizontal polarized wave.For horizontal polarized wave, can find out in 45 °, 135 ° ,-45 ° and-135 ° of directions to have directive property.And,, can find out except 90 ° of direction non-directives for vertically polarized wave.In addition, top-right figure's is equivalent in meaning.

Figure 38 E illustrates from the electric wave of transmitter side antenna transmission 5.4GHz, the radiation diagram when as the mensuration face receiver side antenna shown in Figure 35 A and Figure 35 B being rotated.Same as described above, the radiation diagram of the receiver side antenna the when radiation diagram of the receiver side antenna when solid line has been represented from the transmitter side antenna transmission electric wave of vertically polarized wave, thick line have been represented from the transmitter side antenna transmission electric wave of horizontal polarized wave.For horizontal polarized wave, can find out in 45 °, 135 ° ,-45 ° and-135 ° of directions to have directive property.And,, can find out directive property with complicated shape for vertically polarized wave.In addition, top-right figure's is equivalent in meaning.

Figure 38 F illustrates from the electric wave of transmitter side antenna transmission 5.4GHz, the radiation diagram when as the mensuration face receiver side antenna shown in Figure 35 A and Figure 35 B being rotated.Same as described above, the radiation diagram of the receiver side antenna the when radiation diagram of the receiver side antenna when solid line has been represented from the transmitter side antenna transmission electric wave of vertically polarized wave, thick line have been represented from the transmitter side antenna transmission electric wave of horizontal polarized wave.For horizontal polarized wave, can find out directive property with complicated shape.And, can find out for vertically polarized wave, except-45 ° of direction non-directives.In addition, top-right figure's is equivalent in meaning.

Figure 39 has summed up the data of average gain.For each plane, illustrate at the average gain of the 2.45GHz of vertically polarized wave (V) and horizontal polarized wave (H) and the average gain of 5.4GHz.And, the overall average gain of 2.45GHz and 5.4GHz also is shown.So as can be seen, when 2.45GHz, the gain of the vertically polarized wave in the XZ plane is higher, and for horizontal polarized wave, the gain on YZ plane or XY plane is higher.And when 5.4GHz, the gain of the horizontal polarized wave on YZ plane or XY plane is higher, and for vertically polarized wave, the gain on XZ plane is higher.

[execution mode 22]

The antenna of the 22nd execution mode of the present invention is the double frequency band aerial of 2.4GHz frequency band and 5GHz frequency band, and the way to the dielectric base plate 2105 further miniaturizations that are used to make the 21st execution mode describes here.This double frequency band aerial is shown in the side view of Figure 40 A, has following structure, that is: form the 1st element 2201 of planar conductor and as the part 1 2206a of the 2nd element of resonant element at dielectric base plate 2205 than lower floor, dielectric base plate 2205 form the part 2 2206b of the 2nd element than the upper strata, use 2 outer electrode 2205a to connect their.Figure 40 B illustrates the structure of the layer of the part 1 2206a that is formed with the 1st element 2201 and the 2nd element.The shape of the 1st element 2201 is identical with the shape shown in the 21st execution mode.The part 1 2206a of the 2nd element extends from the center of top of the 1st element 2201, is divided into 2 directions on the way, and 2 the outer electrode 2205as set with the upper end of dielectric base plate 2205 are connected.Figure 40 C illustrates the structure of the layer of the part 2 2206b that is formed with the 2nd element.The part 2 2206b of the 2nd element has following structure, that is: from the set outer electrode 2205a in the upper end of dielectric base plate 2205 after the bottom of dielectric base plate 2205 direction is extended, be included in the meanders shown in the 21st execution mode (Figure 33).The part 2 2206b of the 2nd element is configured to, although layer is different, does not see from above to overlap with the 1st element 2201.At least with the 21st execution mode in configuration shown in Figure 34 identical, be configured to not see with produce dysgenic area coincidence to the 1st element 2201 from above.Promptly, when the part 2 2206b of the 2nd element and the 1st element 2201 being projected on the imaginary plane that is parallel to residing separately layer, the part 2 2206b of the 2nd element be configured to not be projected in imaginary plane on the defined presumptive area of side of the 1st element overlap.This presumptive area is the part corresponding with zone shown in Figure 34 2116.In addition, the dielectric base plate 2205 in the present embodiment is of a size of: L221=1mm, L222=4mm, L223=10mm.

By regulating the resonance frequency of controlling the 2nd element from the connecting portion that connects the 1st element 2201 to the length of the 2nd element of open end.Compare part of extending to outer electrode 2205a as the part 1 2206a of the 2nd element and the part of outer electrode 2205a and the length that is added into the 2nd element as the part that the part 2 2206b of the 2nd element extends from outer electrode 2205a with the 21st execution mode.Therefore, even shorten the part 2 2206b of the 2nd element, the characteristic of 2.4GHz frequency band also can be kept the level identical with the antenna of the 21st execution mode.Can realize the miniaturization of dielectric base plate 2205 like this.

Figure 41 shows the impedance operator of the 5GHz frequency band in the present embodiment.In Figure 41, the longitudinal axis is represented VSWR, and transverse axis is represented frequency (GHz).Compare with Figure 37 of impedance operator of the 5GHz frequency band of expression the 21st execution mode, curve shape is slightly different, yet VSWR is roughly the same smaller or equal to 2 frequency band.

Figure 42 illustrates the impedance operator of the 2.4GHz frequency band in the present embodiment.In Figure 42, the longitudinal axis is represented VSWR, and transverse axis is represented frequency (GHz).Compare with Figure 36 of impedance operator of the 2.4GHz frequency band of expression the 21st execution mode, be illustrated in VSWR among Figure 42 that high frequency side carried out miniaturization smaller or equal to the about 80MHz of 2 band spreading about.Show good characteristic so as can be seen.

[execution mode 23]

The antenna of the 23rd execution mode of the present invention is the double frequency band aerial of 2.4GHz frequency band and 5GHz frequency band, and the way to the dielectric base plate 2105 further miniaturizations that are used to make the 21st execution mode describes here.This double frequency band aerial is shown in the side view of Figure 43 A, has following structure, that is: form the 1st element 2301 of planar conductor and as the part 1 2306a of the 2nd element of resonant element at dielectric base plate 2305 than lower floor, dielectric base plate 2305 form the part 2 2306b of the 2nd element than the upper strata, use 1 outer electrode 2305a to connect their.Figure 43 B illustrates the structure of the layer of the part 1 2306a that is formed with the 1st element 2301 and the 2nd element.The shape of the 1st element 2301 is identical with the shape shown in the 21st execution mode.The part 1 2306a of the 2nd element extends from the center of top of the 1st element 2301, and the outer electrode 2305a straight line set with the upper end of dielectric base plate 2305 is connected.Figure 43 C illustrates the structure of the layer of the part 2 2306b that is formed with the 2nd element.The part 2 2306b of the 2nd element has following structure, that is: from the set outer electrode 2305a in the upper end of dielectric base plate 2305 after the bottom of dielectric base plate 2305 direction is extended, comprise the 2nd element 2106 shown in the 21st execution mode (Figure 33) except with part that the 1st element 2101 is connected major part.The part 2 2306b of the 2nd element is configured to, although layer is different, does not see from above to overlap with the 1st element 2301.At least identical with the configuration shown in Figure 34 in the 21st execution mode, be configured to not see with produce dysgenic area coincidence to the 1st element 2301 from above.

By regulating the resonance frequency of controlling the 2nd element from the connecting portion that connects the 1st element 2301 to the length of the 2nd element of open end.Compare part of extending to outer electrode 2305a as the part 1 2306a of the 2nd element and the part of outer electrode 2305a and to be added as the part that the part 2 2306b of the 2nd element extends from outer electrode 2305a be the length of the 2nd element with the 21st execution mode.Therefore, even shorten the part 2 2306b of the 2nd element, the characteristic of 2.4GHz frequency band also can be kept and the level identical according to the antenna of the 21st execution mode.Can realize the miniaturization of dielectric base plate 2305 like this.

[execution mode 24]

The antenna of the 24th execution mode of the present invention is the double frequency band aerial of 2.4GHz frequency band and 5GHz frequency band, and the way to the dielectric base plate 2105 further miniaturizations that are used to make the 21st execution mode describes here.This double frequency band aerial is shown in the side view of Figure 44 A, has following structure, that is: form the 1st element 2401 of planar conductor and as the part 1 2406a of the 2nd element of resonant element at dielectric base plate 2405 than lower floor, dielectric base plate 2405 form the part 2 2406b of the 2nd element than the upper strata, use 2 outer electrode 2405a to connect their.Figure 44 B illustrates the structure of the layer of the part 1 2406a that is formed with the 1st element 2401 and the 2nd element.The shape of the 1st element 2401 is identical with the shape shown in the 21st execution mode.The part 1 2406a of the 2nd element extends from the center of top of the 1st element 2401, is divided into 2 directions on the way, and after surpassing the transverse width of the 1st element 2401,2 the outer electrode 2405as set with the upper end of dielectric base plate 2405 are connected.Figure 44 C illustrates the structure of the layer of the part 2 2406b that is formed with the 2nd element.The part 2 2406b of the 2nd element has following structure, that is: from the set outer electrode 2405a in the upper end of dielectric base plate 2405 after the bottom of dielectric base plate 2405 direction is extended, comprise meanders.The part 2 2406b of the 2nd element is configured to, although layer is different, does not see from above to overlap with the 1st element 2401.At least identical with the configuration shown in Figure 34 in the 21st execution mode, be configured to not see with produce dysgenic area coincidence to the 1st element 2401 from above.

By regulating the resonance frequency of controlling the 2nd element from the connecting portion that connects the 1st element 2401 to the length of the 2nd element of open end.Compare part of extending to outer electrode 2405a as the part 1 2406a of the 2nd element and the part of outer electrode 2405a and to be added as the part that the part 2 2406b of the 2nd element extends from outer electrode 2405a be the length of the 2nd element with the 21st execution mode.Therefore, even shorten the part 2 2406b of the 2nd element, the characteristic of 2.4GHz frequency band also can be kept and the level identical according to the antenna of the 21st execution mode.Can realize the miniaturization of dielectric base plate 2405 like this.

More than embodiments of the present invention are described, yet the invention is not restricted to this.For example, the shape of plane component and resonant element also can adopt other shape as long as can obtain identical antenna performance.As mentioned above, the shape of notch also can adopt trapezoidal and other polygon replaces rectangle.And, also can make the processing of the angle sphering of notch.For the gradually thin shape of the end of grounding pattern, can adopt line segment with external formation, and show the example of the recess of the electrode that is provided for accommodating power supply usefulness, yet end not necessarily must be an acute angle.And plane component and grounding pattern not exclusively overlap, but its part might overlap.

Claims

1. antenna is characterized in that having:

Grounding pattern; And

Plane component, it is powered, and is provided with otch from distance power supply marginal portion farthest, position towards described grounding pattern side;

Described grounding pattern and described plane component are set up in parallel.

2. antenna according to claim 1 is characterized in that, described plane component is configured to make the edge part beyond the described otch set on this plane component relative with described grounding pattern.

3. antenna according to claim 1 is characterized in that, described grounding pattern forms all edge parts that do not surround described plane component, and is provided with opening at least a portion of the edge part that comprises described otch of described plane component.

4. antenna according to claim 1 is characterized in that described otch is a rectangle.

5. antenna according to claim 1 is characterized in that, the straight line that described notch shape becomes with respect to the power supply position by described plane component is symmetrical.

6. antenna according to claim 1 is characterized in that, described plane component has following shape: with the limit relative with described grounding pattern is base, vertical or be approximately perpendicular to this base and be provided with side, on top be provided with described otch.

7. antenna according to claim 6 is characterized in that, the angle at two ends, described base is cut off.

8. antenna according to claim 1 is characterized in that, at least any one party in described plane component and the described grounding pattern have make between described grounding pattern and the described plane component apart from the continually varying part.

9. antenna according to claim 1 is characterized in that, described plane component and at least a portion described grounding pattern opposed edges are curve.

10. antenna according to claim 1 is characterized in that described plane component and dielectric base plate form as one.

11. a dielectric substrate for antenna has:

Dielectric layer; And

The layer that comprises the conducting plane element that is formed with otch from the marginal portion nearest towards the 2nd side surface direction relative with described the 1st side apart from the 1st side of this dielectric substrate for antenna.

12. dielectric substrate for antenna according to claim 11 is characterized in that, described otch is a rectangle.

13. dielectric substrate for antenna according to claim 12 is characterized in that, the straight line that described notch shape becomes with respect to the power supply position by described plane component is symmetrical.

14. dielectric substrate for antenna according to claim 12, it is characterized in that described plane component has following shape: from nearest limit, described the 2nd side to be base, vertical or be approximately perpendicular to this base and be provided with side, be provided with described otch from nearest top, described the 1st side.

15. dielectric substrate for antenna according to claim 14 is characterized in that, the angle at two ends, described base is cut off.

16. dielectric substrate for antenna according to claim 12 is characterized in that, described plane component from the nearest edge part in described the 2nd side have make and described the 2nd side between apart from the continually varying part.

17. dielectric substrate for antenna according to claim 12 is characterized in that, described plane component has at least the connecting portion that is connected with the electrode that is provided with on described the 2nd side.

18. an antenna has:

The plane component that is powered; And

Grounding pattern, itself and described plane component are set up in parallel,

By described grounding pattern is carried out otch, is provided with making between described plane component and the described grounding pattern apart from the continuous change section of continually varying.

19. an antenna comprises:

Plane component, it is powered in the power supply position; And

Grounding pattern, itself and described plane component are set up in parallel, and are formed with the gradually thin shape of end at the power supply position of described plane component.

20. antenna according to claim 19 is characterized in that, at least any one party in edge part that the gradually thin shape of described end constitutes by: the edge part that is made of line segment, by convex curves and the edge part that is made of convex curve down constitutes.

21. antenna according to claim 19 is characterized in that, the gradually thin shape of described end is symmetrical with respect to the straight line of the power supply position by described plane component.

22. antenna according to claim 19 is characterized in that, is provided with the power recess of part of usefulness of the power supply position that is used to accommodate to described plane component at the end of the gradually thin shape of described end.

23. antenna according to claim 19 is characterized in that, described plane component is formed on the dielectric base plate or inside, and described grounding pattern is formed on the resin substrate or inside, and described dielectric base plate is placed on the described resin substrate.

24. antenna according to claim 23 is characterized in that, described plane component has following shape: with the limit relative with described grounding pattern is base, vertical or be approximately perpendicular to this base and be provided with side, on top be provided with otch.

25. antenna according to claim 23, it is characterized in that, place the dielectric base plate that is formed with described plane component in the upper end of described resin substrate, described grounding pattern forms has the left side that extends to described dielectric base plate and the zone of at least any one party in the right side.

26. antenna according to claim 23, it is characterized in that, place the dielectric base plate that is formed with described plane component on the upper right end of described resin substrate and at least any one party in the upper left end, described grounding pattern forms the zone with the opposition side that extends to a side of placing described dielectric base plate.

27. an antenna is characterized in that having:

Dielectric base plate, itself and plane component form as one; And

Substrate, it is provided with described dielectric base plate and is formed with the grounding pattern that is set up in parallel with this dielectric base plate;

On described grounding pattern, be formed with the gradually thin shape of end at the power supply position of described plane component;

On described plane component, from being provided with otch towards the described grounding pattern side that is set up in parallel from marginal portion farthest, described power supply position.

28. antenna according to claim 27 is characterized in that,

At the upper right end of described substrate and upper left end part interval 1/4 wavelength and be provided with 2 described dielectric base plates;

Described grounding pattern is provided with the zone that is used to separate 2 described dielectric base plates.

29. a wireless communication card is characterized in that having:

Dielectric base plate, itself and plane component form as one; And

Substrate, it is provided with described dielectric base plate and is formed with the grounding pattern that is set up in parallel with this dielectric base plate,

30. an antenna is characterized in that having:

Grounding pattern; And

The plane component that is powered, it is being provided with continuous changing unit with described grounding pattern opposed edges portion, any one party in the line segment that this continuous changing unit is connected with the gradient phasic Chang by curve constitutes, and make and described grounding pattern between distance change continuously

Described grounding pattern does not surround all edge parts of described plane component, and is set up in parallel with this plane component.

31. antenna according to claim 30 is characterized in that, in described continuous changing unit, along with the power supply position away from described plane component, and the distance between the described grounding pattern increases gradually.

32. antenna according to claim 30 is characterized in that, at least a portion of described continuous changing unit is made of circular arc.

33. antenna according to claim 30 is characterized in that, at least a portion of the part beyond the described continuous changing unit in the edge part of described plane component is formed on the opposition side of described grounding pattern side.

34. antenna according to claim 30 is characterized in that, at least a portion that described grounding pattern forms at the edge part beyond the described continuous changing unit of described plane component is provided with opening.

35. antenna according to claim 30 is characterized in that, on described plane component, from being provided with otch from the power supply position of described plane component edge part farthest towards described grounding pattern side.

36. antenna according to claim 35 is characterized in that, at least a portion of the edge part that comprises described otch of described plane component is formed on not relative with the described grounding pattern position.

37. antenna according to claim 30 is characterized in that, on described grounding pattern, is formed with the gradually thin shape of end at the power supply position of described plane component.

38. antenna according to claim 30 is characterized in that, described plane component is symmetrical with respect to the straight line of the power supply position by described plane component.

39. antenna according to claim 30 is characterized in that, the distance between described grounding pattern and the described plane component is symmetrical with respect to the straight line of the power supply position by described plane component.

40. antenna according to claim 30 is characterized in that,

Described plane component and dielectric base plate form as one;

In described continuous changing unit, along with the power supply position away from described plane component, and the distance between the described grounding pattern increases saturatedly.

41. an antenna is characterized in that having:

Grounding pattern; And

The plane component that is powered, it is being provided with continuous changing unit with described grounding pattern opposed edges portion, any one party in the line segment that this continuous changing unit is connected with the gradient phasic Chang by curve constitutes, make and described grounding pattern between distance change continuously

Described grounding pattern is configured to not surround all edge parts of described plane component;

Described grounding pattern and described plane component not exclusively overlap, the parallel or almost parallel configuration of face each other.

42. an antenna is characterized in that having:

Grounding pattern; And

Plane component, it is powered in the power supply position, is being provided with continuous changing unit with described grounding pattern opposed edges portion, this continuous changing unit make and described grounding pattern between distance begin curve ground from described power supply position and increase gradually,

43. an antenna is characterized in that having:

Plane component, it is powered in the power supply position; And

Grounding pattern, itself and described plane component are set up in parallel,

Distance between described plane component and the described grounding pattern is along with away from increase by the straight line of described power supply position continuous and saturatedly.

44. according to the described antenna of claim 43, it is characterized in that,

Any one party in the line segment that the side edge part of described plane component is connected with the gradient phasic Chang by curve constitutes;

Described plane component is formed on the dielectric substrate for antenna or inside.

45., it is characterized in that described dielectric substrate for antenna also comprises resonant element according to the described antenna of claim 44, the end points on the straight line of this resonant element and described power supply position by described plane component is connected.

46., it is characterized in that described resonant element is symmetrical with respect to the straight line by described power supply position according to the described antenna of claim 45.

47., it is characterized in that described resonant element is asymmetric with respect to the straight line by described power supply position according to the described antenna of claim 45.

48. any described antenna according in the claim 45 to 47 is characterized in that described plane component and described resonant element are formed on same one deck.

49. any described antenna according in the claim 45 to 47 is characterized in that at least a portion of described plane component and described resonant element is formed on different layers.

50. according to any described antenna in the claim 45 to 49, it is characterized in that, when described plane component and described resonant element being projected on the imaginary plane that is parallel to residing separately layer, described resonant element be configured to not with project to described imaginary plane on the defined presumptive area of side of plane component overlap.

51. according to any described antenna in the claim 45 to 49, it is characterized in that, when described plane component and described resonant element being projected on the imaginary plane that is parallel to residing separately layer, described resonant element is configured at least not from the area coincidence of following half line with described plane component side, this half line is parallel to the straight line by the power supply position that is projected in the plane component on the described imaginary plane, and is that starting point is extended to described power supply locality with the end points away from the side edge part of this power supply position of the plane component of described projection.

52. a dielectric substrate for antenna is characterized in that having:

Dielectric layer; And

The layer that comprises the conducting plane element that any one party in the line segment that side edge part is connected with the gradient phasic Chang by curve constitutes,

Nearest face from the power supply position of described plane component in the side of described dielectric substrate for antenna and the distance between the described side edge part increase along with away from the straight line by described power supply position continuous and saturatedly.

53., it is characterized in that also having resonant element according to the described dielectric substrate for antenna of claim 52, the end points on the straight line of this resonant element and described power supply position by described plane component is connected.

54., it is characterized in that described resonant element is symmetrical with respect to the straight line by described power supply position according to the described dielectric substrate for antenna of claim 53.

55., it is characterized in that described resonant element is asymmetric with respect to the straight line by described power supply position according to the described dielectric substrate for antenna of claim 53.

56. any described dielectric substrate for antenna according in the claim 53 to 55 is characterized in that described plane component and described resonant element are formed on same one deck.

57. any described dielectric substrate for antenna according in the claim 53 to 55 is characterized in that at least a portion of described plane component and described resonant element is formed on different layers.

58. according to any described dielectric substrate for antenna in the claim 53 to 57, it is characterized in that, when described plane component and described resonant element being projected on the imaginary plane that is parallel to residing separately layer, described resonant element is configured to by the defined presumptive area of the side that projects to the plane component on the described imaginary plane not overlap.

59. according to any described dielectric substrate for antenna in the claim 53 to 57, it is characterized in that, when described plane component and described resonant element being projected on the imaginary plane that is parallel to residing separately layer, described resonant element is configured at least not from the area coincidence of following half line with described plane component side, this half line is parallel to the straight line by the power supply position that is projected in the plane component on the described imaginary plane, and is that starting point is extended to described power supply locality with the end points away from the side edge part of this power supply position of the plane component of described projection.

60. an antenna is characterized in that having:

Dielectric base plate, it forms as one with the plane component that is powered in the power supply position; And

Grounding pattern, itself and described dielectric base plate are set up in parallel, and are formed with the gradually thin shape of end at described power supply position,

In described plane component, from being provided with otch towards described grounding pattern side from marginal portion farthest, described power supply position.

61. a wireless communication card is characterized in that having:

Described dielectric base plate is arranged on the end of described substrate;

In described grounding pattern, be formed with the gradually thin shape of end at described power supply position, and be provided with the left side that extends to described dielectric base plate or the zone of at least any one party in the right side;

In described plane component, from being provided with otch to the described grounding pattern side that is set up in parallel from marginal portion farthest, described power supply position.